Mohammed bin Rashid Space Centre: Difference between revisions

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			{{Short description\|Dubai government entity}}
			{{Use British English\|date=May 2020}}
			{{Use dmy dates\|date=May 2020}}
	{{Infobox government agency		{{Infobox government agency
	\|agency_name = Mohammed bin Rashid Space Centre ~~(MBRSC)~~		\| agency_name = Mohammed bin Rashid Space Centre
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	The '''Mohammed Bin Rashid Space Centre ~~(MBRSC),~~''' ~~encompassing the~~ '''~~Emirates Institution for Advanced Science and Technology (EIAST)~~'''~~<ref>~~{{~~Cite web~~\|~~url = http://www.arabianaerospace.aero/uae-to-build-new-space-research-centre-in-al-ain.html~~\|~~title~~ = ~~UAE~~ to ~~build new space research centre~~\|~~date~~ = 26 ~~May~~ ~~2015\|access~~-~~date = \|website = Arabian Aero Space~~}}~~</ref>~~ is a ~~'''~~]~~'''~~ ~~organisation~~ working on the ~~'''~~UAE space program~~'''~~ which includes various ] projects ~~and~~ the Emirates Mars Mission. ~~The~~ ~~centre~~ is ~~also~~ actively ~~working~~ to promote ] and ] in the region.<ref name=":0">{{Cite web\|url = http://mbrsc.ae/en/page/who-we-are\|title = About Mohammed Bin Rashid Space Centre\|~~date~~ = \|~~access~~-date = \|~~website~~ = ~~MBRSC\|publisher~~ = ~~\|last~~ = \|~~first~~ = }}</ref>		The '''Mohammed Bin Rashid Space Centre''' ('''MBRSC''', {{langx\|ar\|مركز محمد بن راشد للفضاء\|markaz Muḥammad bin Rāshid lil-faḍāʾ}}) is a ] organization working on the UAE space program, which includes various ] projects, such as the ], the ], and the UAE astronaut program. The center actively works to promote ] and ] in the region<ref name=":0">{{Cite web\|url=http://mbrsc.ae/en/page/who-we-are\|title=About Mohammed Bin Rashid Space Centre\|website=MBRSC\|archive-url= https://web.archive.org/web/20171210232005/https://mbrsc.ae/en/page/who-we-are\|archive-date = 2017-12-10\|url-status=dead}}</ref> and encompasses the Emirates Institution for Advanced Science and Technology (EIAST).<ref>{{Cite web\|url=http://www.arabianaerospace.aero/uae-to-build-new-space-research-centre-in-al-ain.html\|title=UAE to build new space research centre\|date=26 May 2015\|website=Arabian Aero Space}}</ref>

			== Overview ==
	], Vice President and Prime Minister of the ], and Ruler of Dubai, established The Emirates Institution for Advanced Science and Technology (EIAST) on 6 February 2006.<ref name=":0" /> On 17 April 2015, the law for establishing the Mohammed bin Rashid Space Centre was issued by His Highness Mohammed bin Rashid Al Maktoum, incorporating EIAST into it.<ref name=":1">{{Cite web\|url = http://mbrsc.ae/en/page/eiast-law\|title = Law for Establishing Emirates Institution for Advanced Science and Technology\|date = \|access-date = \|website = MBRSC\|publisher = \|last = \|first = }}</ref>
			], vice president and prime minister of the ] and ruler of Dubai, established the Emirates Institution for Advanced Science and Technology (EIAST) on 6 February 2006.<ref name=":0"/> On 17th April 2015, Mohammed bin Rashid Space Center was created, incorporating EIAST into it.<ref name=":1">{{Cite web \|url=http://mbrsc.ae/en/page/eiast-law\|title=Law for Establishing Emirates Institution for Advanced Science and Technology\|website=MBRSC\|archive-url=https://web.archive.org/web/20180621070032/https://mbrsc.ae/en/page/eiast-law\|archive-date=2018-06-21\|url-status=dead}}</ref>

	MBRSC contributes towards the development of various sectors within the United Arab Emirates and across the globe, using data from UAE satellites and various applications related to space science. The ~~centre is at the forefront of~~ ~~promoting~~ space science and scientific research in the UAE and the ~~region.~~<ref name=":2">{{Cite web\|url = http://mbrsc.ae/en/news/mohammed-bin-rashid-issued-mohammed-bin-rashid-space-centre-law\|title = Decree for establishing Mohammed Bin Rashid Space Centre\|~~date~~ = \|~~access~~-date = \|~~website~~ = ~~\|publisher = \|last = \|first =~~ }}</ref> ~~MBRSC~~ also ~~provides support to~~ various organisations in the management of ]s, rescue missions, ] and land planning ~~using~~ ~~] imagery sent back from UAE~~ satellites, ~~including~~ ] and ].<ref>{{Cite web\|url = http://mbrsc.ae/en/news/dubaisat-2-successfully-completes-in-orbit-commissioning\|title = DubaiSat-2 successfully completes in-orbit commissioning\|date = April 14, 2014\|~~access~~-~~date~~ = \|~~website~~ = ~~\|publisher =~~ \|~~last~~ = ~~\|first =~~ }}</ref>		MBRSC contributes towards the development of various sectors within the United Arab Emirates and across the globe, using data from UAE satellites, and various applications related to space science. The center promotes space science and scientific research in the UAE and the Middle East,<ref name=":2">{{Cite web\|url=http://mbrsc.ae/en/news/mohammed-bin-rashid-issued-mohammed-bin-rashid-space-centre-law\|title=Decree for establishing Mohammed Bin Rashid Space Centre\|archive-url=https://web.archive.org/web/20170112080859/http://mbrsc.ae/en/news/mohammed-bin-rashid-issued-mohammed-bin-rashid-space-centre-law\|archive-date=2017-01-12\|url-status=dead}}</ref> while also supporting various organisations in the management of ]s, rescue missions, ] and land planning with its satellites, such as ] and ].<ref>{{Cite web\|url=http://mbrsc.ae/en/news/dubaisat-2-successfully-completes-in-orbit-commissioning\|title=DubaiSat-2 successfully completes in-orbit commissioning\|date=April 14, 2014\|archive-url=https://web.archive.org/web/20190627183508/https://mbrsc.ae/en/news/dubaisat-2-successfully-completes-in-orbit-commissioning\|archive-date=June 27, 2019\|url-status=dead}}</ref>

	==Creation==		==Creation==
	To establish a research and knowledge-based economy in the United Arab Emirates, ~~His Highness Sheikh~~ Mohammed bin Rashid Al Maktoum issued a law in 2015 to establish the Mohammed bin Rashid Space ~~Centre~~. MBRSC was tasked to support the country's efforts in the field of space; to supervise the design, manufacturing and launch of Al ~~Amal,~~ or ~~‘Hope’~~ ~~probe~~, the Arab ~~world’s~~ first Mars probe; and to build an integrated infrastructure for manufacturing satellites and taking advantage of their various applications.<ref name=":1" /><ref name=":2" />		To establish a research and knowledge-based economy in the United Arab Emirates, Mohammed bin Rashid Al Maktoum issued a law in 2015, to establish the Mohammed bin Rashid Space Center. MBRSC was tasked to support the country's efforts in the field of space; to supervise the design, manufacturing and launch of the "Hope" probe (Misbar Al-Amal), the Arab world's first Mars probe; and to build an integrated infrastructure for manufacturing satellites and taking advantage of their various applications.<ref name=":1"/><ref name=":2"/>

	~~His Highness Sheikh Mohammed bin Rashid Al Maktoum issued a decree to appoint~~ ], Crown Prince of Dubai, as ~~Chairman~~ and general supervisor of the strategic plans and projects of MBRSC in June 2015.<ref name=":2" />		], Crown Prince of Dubai, was appointed as chairman and general supervisor of the strategic plans and projects of MBRSC in June 2015.<ref name=":2"/>

	Along with the establishment of the Mohammed ~~bin~~ Rashid Space ~~Centre~~, Sheikh Mohammed also issued a law to join the Emirates Institution for Advanced Science and Technology (EIAST) with the ~~centre~~ and consider it one of its affiliated institutions. As part of the law, EIAST will implement and follow-up the policies, plans and decisions set by the Mohammed bin Rashid Space ~~Centre~~. The ~~Board~~ of ~~Directors~~ of the Mohammed bin Rashid Space ~~Centre~~ were appointed, including Hamad Obaid Al Sheikh Al ~~Mansouri~~ as ~~Chairman~~ of the ~~Board~~, ~~Yousef~~ Ahmed Al ~~Shaibani~~ as ~~Vice~~ ~~Chairman,~~ with Mansour Abdullah Bastaki, Mohammed Saif Al Miqbali and Mansoor Juma Bu Osaiba appointed as members.<ref name=":2" />		Along with the establishment of the Mohammed Bin Rashid Space Center, Sheikh Mohammed also issued a law to join the Emirates Institution for Advanced Science and Technology (EIAST) with the center and consider it one of its affiliated institutions. As part of the law, EIAST will implement and follow up the policies, plans and decisions set by the Mohammed bin Rashid Space Center. The board of directors of the Mohammed bin Rashid Space center were appointed, including Hamad Obaid Al Sheikh Al Mansoori as chairman of the board, Yusuf Ahmed Al Shahbani as vice chairman; with Mansour Abdullah Bastaki, Mohammed Saif Al Miqbali, and Mansoor Juma Bu Osaiba as appointed members.<ref name=":2"/>

	~~Since~~ ~~its~~ ~~establishment, the centre has worked~~ to promote ] & scientific research in the region through innovative space projects and ~~various~~ programs.<ref name=":1" />		The center works to promote ] & in the region through innovative space projects and programs.<ref name=":1"/>

	==~~Space projects~~==		==Projects==
	The Mohammed bin Rashid Space ~~Centre~~ works across ~~three~~ main ~~domains~~ in order to achieve the goals and objectives set forth for the development of the space industry in the region: research and development of ], satellite manufacturing and systems development, Earth observation through satellite imagery, and ground station services to support other satellites.<ref name=":0" />		The Mohammed bin Rashid Space Center works across four main areas, in order to achieve the goals and objectives set forth, for the development of the space industry in the region. These areas are: research and development of ], satellite manufacturing and systems development, Earth observation through satellite imagery, and ground station services to support other satellites.<ref name=":0"/>

	The first satellite, DubaiSat-1, was launched on July ~~29,~~ 2009 from the Baikonur launch site in Kazakhstan and since then, the ~~centre~~ has been building on its expertise to manufacture satellites with advanced technology for better research & development.<ref>{{Cite web\|url = http://www.thenational.ae/news/uae-news/after-years-of-work-and-delays-dubaisat-1-finally-ready-for-lift-off\|title = The National UAE\|date = July 29, 2009~~\|access-date = \|website = \|publisher = \|last = \|first =~~ }}</ref>		The first satellite, ], was launched on 29 July 2009 from the ] in ], and since then, the center has been building on its expertise to manufacture satellites with advanced technology for better research and development.<ref>{{Cite web\|url=http://www.thenational.ae/news/uae-news/after-years-of-work-and-delays-dubaisat-1-finally-ready-for-lift-off\|title=The National UAE \|date=July 29, 2009}}</ref>

	===DubaiSat-1===		===DubaiSat-1===
	{{main\|DubaiSat-1}}		{{main\|DubaiSat-1}}

	] is an ], ~~and was the first ever satellite launched~~ by ~~the Mohammed bin Rashid Space Centre. The DubaiSat-1 project was carried out in an agreement with~~ Satrec Initiative, a ~~satellite manufacturing company based in~~ ]. It ~~was~~ ~~designed & developed by Satrec Initiative, with participation of Emirati engineers from MBRSC~~.<ref name=":3">{{Cite web\|url = http://mbrsc.ae/en/page/dubai-sat-1\|title = DubaiSat-2; Mohammed Bin Rashid Space Centre~~\|date = \|access-date = \|website = \|publisher = \|last = \|first =~~ }}</ref>		The first satellite launched by MBRSC Was ], an ] built by ], a ]n satellite manufacturing firm.<ref name=":3">{{Cite web \|url=http://mbrsc.ae/en/page/dubai-sat-1\|title=DubaiSat-2; Mohammed Bin Rashid Space Centre}}</ref>

	DubaiSat-1 was launched on July ~~29,~~ 2009 from the ] launch site in Kazakhstan, aboard a Dnepr launch vehicle. With a diameter of around 1.2 ~~metres~~ and a height of 1.35 metres, the satellite has a ~~Deck~~-~~And~~-~~Longeron~~ type structure, allowing easy assembly & disassembly. ~~DubaiSat~~-1 weighs less than 200 kg including a 50 kg ~~Payload~~ ~~Mass~~, and its average power consumption is less than 150 watts.<ref>{{Cite web\|url = http://mbrsc.ae/en/page/technical-specifications\|title = Technical Specifications of DubaiSat-2; Mohammed Bin Rashid Space Centre\|~~date~~ = \|~~access~~-date = \|~~website~~ = ~~\|publisher = \|last = \|first =~~ }}</ref>		DubaiSat-1 was launched on 29 July 2009 from the ] launch site in Kazakhstan, aboard a Dnepr launch vehicle. With a diameter of around 1.2 meters and a height of 1.35 metres, the satellite has a deck-and-longeron type structure, allowing easy assembly and disassembly. Dubai-Sat-1 weighs less than 200 kg including a 50 kg payload ], and its average power consumption is less than 150 watts.<ref>{{Cite web\|url = http://mbrsc.ae/en/page/technical-specifications\|title=Technical Specifications of DubaiSat-2; Mohammed Bin Rashid Space Centre\|archive-url=https://web.archive.org/web/20170711175133/https://mbrsc.ae/en/page/technical-specifications\|archive-date=2017-07-11\|url-status=dead}}</ref>

	~~DubaiSat~~-1 ~~moves~~ at a ] (LEO) and generates high-resolution optical images at ~~2.5 m~~ in ~~panchromatic~~ ~~and~~ ~~at 5 ~~m ~~in multispectral bands~~. These images are ~~used by various governmental and private organisations within the United Arab Emirates and across the globe. The satellite imagery from DubaiSat-1 is~~ used for a wide range of applications including infrastructure development, ], and environment monitoring and protection. DubaiSat-1 images are also useful for promoting ] and ] research ~~in the region, and for supporting different scientific disciplines in private and academic sectors~~.<ref>{{Cite web\|url = http://www.satreci-us.com/documents/papers/IAC-09.B1.3.10.%20DS-1%20CAMERA%20Pre-launch%20Performance%20Characterization%20(YW%20Choi%20et%20al.).pdf\|title = Satreci US\|date = 2009\|~~access~~-~~date~~ = \|~~website~~ = \|~~publisher~~ = ~~\|last = \|first =~~ }}</ref>		Dubai-Sat-1 is in a ] (LEO) and generates high-resolution ] optical images with a resolution of 2.5 m. These images are used for a wide range of applications including infrastructure development, ], and environment monitoring and protection. DubaiSat-1 images are also useful for promoting ] and ] research.<ref>{{Cite web\|url=http://www.satreci-us.com/documents/papers/IAC-09.B1.3.10.%20DS-1%20CAMERA%20Pre-launch%20Performance%20Characterization%20(YW%20Choi%20et%20al.).pdf\|title=Satreci US\|date=2009\|archive-url=https://web.archive.org/web/20160304041227/http://www.satreci-us.com/documents/papers/IAC-09.B1.3.10.%20DS-1%20CAMERA%20Pre-launch%20Performance%20Characterization%20(YW%20Choi%20et%20al.).pdf\|archive-date =2016-03-04\|url-status=dead}}</ref>

	Images from ~~DubaiSat~~-1 have been used to monitor the overall development of mega projects like the ] & ] in Dubai. ~~] from the satellite has also been used~~ to monitor relief efforts during ] in Japan. The images of the tsunami & earthquake-affected cities were provided to ], the United Nations Platform for Space-based Information for Disaster Management and Emergency Response, and the ] (JAXA).<ref name=":3" /><ref>{{Cite news\|url = http://www.un-spider.org/about-us/news/en/5025/2011-03-29t103900/dubaisat-1-images-help-un-efforts-japan\|title = SPIDER UN\|last = \|first = \|date = March 2011\|work = \|access-date = \|via = }}</ref> DubaiSat-1 completed its sixth year in orbit on August 21, 2015.<ref>{{Cite web\|url = http://mbrsc.ae/en/news/mbrsc-celebrates-sixth-year-anniversary-of-dubaisat-1-launch\|title = Mbrsc celebrates sixth year anniversary of DubaiSat-1 launch\|date = August 2015\|access-date = \|website = \|publisher = \|last = \|first = }}</ref>		Images from Dubai-Sat-1 have been used to monitor the overall development of mega projects like the ] and ] in Dubai, and to monitor relief efforts during ] in Japan.

	===DubaiSat-2===		===DubaiSat-2===
	{{main\|DubaiSat-2}}		{{main\|DubaiSat-2}}

	]		]
	DubaiSat-2, the second satellite launched by the Mohammed bin Rashid Space Centre, provides electro-optical images with advanced image resolution technology. The design and manufacturing of DubaiSat-2 was carried out by Emirati engineers along with their Korean counterparts. The DubaiSat-2 project started soon after the launch of DubaiSat-1, and the satellite was manufactured and launched in a much shorter period of time than that of the first satellite.<ref name=":4">{{Cite web\|url = http://mbrsc.ae/en/page/dubai-sat-2\|title = DubaiSat-2 {{!}} Mohammed Bin Rashid Space Centre\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

	~~The~~ ~~satellite~~ ~~was~~ ~~all set for the~~ launch at ~~the~~ ~~beginning~~ of ~~November~~ ~~2013,~~ ~~after~~ ~~passing~~ a ~~series of tests~~<ref>{{Cite web\|url = http://mbrsc.ae/en/~~news~~/~~dubaisat~~-2~~-is-all-set-for-nov-21-launch~~\|title = DubaiSat-2 is ~~all~~ ~~set~~ ~~for~~ ~~the~~ ~~launch\|date~~ = November 2013~~\|access-date~~ = ~~\|website~~ = \|~~publisher~~ = ~~\|last~~ = \|~~first~~ = ~~}}</ref>~~ ~~and~~ it ~~was~~ ~~then~~ ~~moved~~ from ~~South~~ ~~Korea~~ to ~~Russia~~ ~~under~~ the ~~supervision~~ of ~~top~~ ~~engineers~~.<ref>{{Cite web\|url = http://mbrsc.ae/en/news/~~dubaisat2~~-~~moved~~-to-~~russia~~-~~ready~~-~~for-launch-soon~~\|title = DubaiSat-2 ~~moved~~ to ~~Russia~~ ~~for the launch~~\|date = ~~November~~ 2013~~\|access-date = \|website = \|publisher = \|last = \|first =~~ }}</ref>		Shortly after the successful launch of DubaiSat-1, MBRSC and Satrec Initiative began work on DubaiSat-2,<ref name=":4">{{Cite web\|url=http://mbrsc.ae/en/page/dubai-sat-2\|title=DubaiSat-2 {{!}} Mohammed Bin Rashid Space Centre}}</ref> which launched on 21 November 2013 from the ] in Russia, on a Russian ], under the supervision of a team of engineers from MBRSC. The communication link with Dubai-Sat-2 was established within an hour after separation from Dnepr rocket, and the satellite took its first image 24 hours after its launch, capturing Bani ] in ].<ref name=":6">{{Cite web\|url=http://mbrsc.ae/en/news/dubaisat-2-successfully-deployed-in-orbit\|title=DubaiSat-2 successfully deployed in orbit\|date=December 2013}}</ref>

			=== Khalifa Sat ===
	DubaiSat-2 was launched on November 21, 2013 from the Yasny Launch Base in Russia, using the Russian ] launcher in cooperation with the Russian International Space Company (Kosmotras), under the supervision of a team of engineers from MBRSC. The speed of DubaiSat-2 was 7.55 km/s until it passed 600 km above the earth.<ref name=":5">{{Cite web\|url = http://mbrsc.ae/en/news/eiast-successfully-launches-dubai-sat-2-into-outer-space\|title = Launch of DubaiSat-2 {{!}} MBRSC\|date = November 2013\|access-date = \|website = \|publisher = \|last = \|first = }}</ref> The communication link with DubaiSat-2 was established within an hour after separation from Dnepr rocket, and the satellite took its first image 24 hours after its launch, capturing Bani ] in ].<ref name=":6">{{Cite web\|url = http://mbrsc.ae/en/news/dubaisat-2-successfully-deployed-in-orbit\|title = DubaiSat-2 successfully deployed in orbit\|date = December 2013\|access-date = \|website = \|publisher = \|last = \|first = }}</ref>
			{{main\|KhalifaSat}}

			On 29 October 2018, MBRSC's most advanced satellite, KhalifaSat, was launched aboard a ] from ].<ref>{{Cite web \|title=KhalifaSat Portfolio \|url=https://www.mbrsc.ae/portfolio/khalifasat/}}</ref> KhalifaSat improved upon the capabilities of ] with a more powerful camera and a faster image download speed. It was also notable for being the first satellite designed and built within the UAE.<ref>{{Cite news \|url=http://www.khaleejtimes.com/business/technology/lift-off-for-space-sector-during-uae-innovation-week\|title=MBRSC in UAE Innovation Week 2015 - KhaleejTimes}}</ref>
	DubaiSat-2 provides high resolution images using a push-broom camera containing time delay integration sensors (TDI). The satellite is capable of providing satellite imagery in both panchromatic (spatial resolution of 1 m) and 4 multi-spectral bands (4 m) across an area of 12.2 km. It can store up to 17,000 km<sup>2</sup> of image data, making it useful for a longer period of time.<ref name=":4" />

			=== Nayif-1 ===
	DubaiSat-2 weighs around 300 kg, is 2 metres in height and 1 metre wide. The satellite contains an electrical propulsion system that controls its altitude above ground level and adjusts it automatically in case of any deviation from orbit.<ref name=":6" /> The satellite consists of two main segments: the Space segment which includes a ] and an electro-optical payload containing push-broom camera with TDI sensors to provide space images, and the Ground Segment consisting of the Main Mission Control Station (MCS), Main Image Receiving and Processing Station (IRPS), Subsidiary MCS, Antenna system and Customer IRPS.<ref name=":4" />
			]

			Nayif-1 is the first ever ] designed and manufactured by Emirati engineers, which was originally scheduled for launch in 2016,<ref name=":8">{{Cite web\|url=http://mbrsc.ae/en/page/nayif-1\|title=Nayif-1, Mohammed Bin Rashid Space Centre\|archive-url=https://web.archive.org/web/20170112080903/http://mbrsc.ae/en/page/nayif-1\|archive-date=2017-01-12
	DubaiSat-2 completed its second year in orbit around the earth in Nov 2015,<ref>{{Cite web\|url = http://mbrsc.ae/en/news/dubaisat-2s-anniversary-gift:-hi-res-pic-of-dubai\|title = DubaiSat-2\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref> and the satellite continues to provide electro-optical earth images for various purposes including ], land & infrastructure planning, ] and disaster management; serving both governmental and private organisations.<ref name=":5" />
			\|url-status =dead}}</ref> but delayed waiting for an appropriate SpaceX launch platform to be scheduled. The satellite was launched in February 2017 on the ] ] launch vehicle, which established a world record by launching 104 satellites, the largest number of satellites deployed by a single launcher.<ref>{{Cite news\|url=http://www.thenational.ae/uae/uae-nanosatellite-launched-into-space-from-india\|title=UAE nanosatellite launched into space from India {{!}} The National\|access-date=2017-05-19\|language=en-US}}</ref>

			The name of the satellite is derived from the Arabic noun, which means "one that soars high above" or "one that is morally and intellectually superior".<ref>{{Cite web\|url=http://mbrsc.ae/en/news/eiast-american-university-of-sharjah-launch-nayef-1-project-first-cube-sat-task-in-uae\|title=Mbrsc launches first CubeSat mission with American University of Sharjah\|date=November 2014
	=== KhalifaSat ===
			}}</ref> For the Nayif-1 project, MBRSC established a partnership with the ] (AUS) in order to provide the engineering students with hands-on experience in satellite manufacturing, testing and operations.<ref name=":8"/>

			The Nayif-1 team consists of seven engineering students from the ] in ], ] and ] disciplines. The satellite will be operated by these students, from the ground station to be built onsite at the American University of Sharjah.<ref name=":8"/>
	KhalifaSat is the third satellite to be launched by the Mohammed bin Rashid Space Centre, and is scheduled for launch in 2018. This project represents the most technologically advanced satellite manufactured by MBRSC yet, and is being worked upon solely by Emirati engineers. Manufacturing of KhalifaSat is currently under progress in the ] at MBRSC Headquarters in Dubai.<ref>{{Cite web\|url = http://mbrsc.ae/en/page/khalifa-sat\|title = KhalifaSat - UAE's Most Technologically Advanced Satellite\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

			With a dimension of 10×10×11.35 cm<sup>3</sup> and a weight of 1.32 kg, the ] will produce a communication footprint ranging from 5,000 to 5,500 km and it will orbit at a height between 450 km and 720 km for up to three years. The satellite will re-broadcast text messages to the world and it will collect data to help academic institutions in conducting different types of research.<ref name=":8"/>
	The completion of the KhalifaSat design, the critical design review, was announced in early January 2016. All the software and systems within the satellite have been completed and they have been reviewed for various purposes. The KhalifaSat team is now working on the flight model of the satellite and its processes related to ground station communication.<ref>{{Cite web\|url = http://mbrsc.ae/en/news/mbrsc-announces-the-completion-of-the-final-design-of-the-khalifasat-engineering-model\|title = MBRSC announces the completion of the final design of KhalifaSat engineering model\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

			=== MBZ-SAT ===
	The KhalifaSat team has managed to incorporate several technologically advanced components in the satellite, including an enhanced light meter for the digital camera of the satellite that will provide better image resolution than ], improved techniques for downloading images with faster speed from anywhere in the world, effective ] techniques that allow the capturing of larger number of 3D images. The target positioning system of the satellite has also been set to provide high quality images with high-speed response and an accurate location system. The satellite also includes an automatic satellite control system that has been done by upgrading the primary satellite computer’s ] and increasing its storage capacity.<ref>{{Cite news\|url = http://www.khaleejtimes.com/business/technology/lift-off-for-space-sector-during-uae-innovation-week\|title = MBRSC in UAE Innovation Week 2015 - KhaleejTimes\|last = \|first = \|date = \|work = \|access-date = \|via = }}</ref>
			{{promotional\|date=May 2024}}

			The Mohammed Bin Rashid Space Center (MBRSC) in Dubai is currently developing the MBZ-SAT, which is expected to be launched in October 2024.<ref>{{Cite web \|title=UAE's MBZ-SAT gears up for October launch \|url=https://www.arnnewscentre.ae/en/news/uae/uaes-mbz-sat-gears-up-for-october-launch/ \|access-date=2024-07-25 \|website=ARN News Centre \|language=en}}</ref> This satellite aims to be the most advanced commercial satellite in the region, focusing on high-resolution satellite imagery. Equipped with an automated system for round-the-clock image processing, MBZ-SAT should provide high-quality satellite images intended for global commercial use.
	The team of KhalifaSat includes 68 Emirati engineers and is led by Amer Mohammad Al Sayegh, Senior Director of the Space Systems Development Department who is serving as the Project Manager for KhalifaSat project. The team also includes Mohammed Abdul Rahim Al Harmi, Director of the Space Operations Department; Suhail Buti Al Dhafri, Senior Manager, Payload Electronics Deptartment; Ahmed Salem Belal, Acting Manager, Satellites Electronics, and Omran Anwar Sharaf, Senior Director, Programs Management Department.<ref name=":7">{{Cite web\|url = http://khalifasat-thejourney.com/?lang=en\|title = www.khalifasat.com\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

			The project is expected to strengthen the UAE's partnerships in the space industry, integrating efforts between the public and private sectors. MBZ-SAT will address the growing commercial demand for high-resolution satellite images that can capture details within an area of less than one square meter. The Center plans to provide a rapid turnaround of captured data, sharing it with users through an advanced system.
	KhalifaSat will provide high resolution images with a GSD of 0.7 m Panchromatic and multispectral bands of 4 m. These images will be made available for various commercial purposes, including disaster management, environmental monitoring and change detection. The satellite will have 320 Mbps speed of data transfer for image download. With 10 imaging sensors & 20 altitude sensors, KhalifaSat will orbit at a speed of 7.5 km/s in space.<ref name=":7" />

			The imagery from MB Z-SAT is anticipated to support various applications, including mapping and analysis, environmental monitoring, navigation, infrastructure management, and disaster relief efforts.
	=== Nayif-1 ===

			=== Crew and Science Airlock Module===
	Nayif-1 is the first ever ] designed and manufactured by Emirati engineers, which is scheduled for the launch in 2016.<ref name=":8">{{Cite web\|url = http://mbrsc.ae/en/page/nayif-1\|title = Nayif-1, Mohammed Bin Rashid Space Centre\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref> The name of the satellite is derived from the Arabic noun, which means ‘one that soars high above’ or ‘one that is morally and intellectually superior.’ <ref>{{Cite web\|url = http://mbrsc.ae/en/news/eiast-american-university-of-sharjah-launch-nayef-1-project-first-cube-sat-task-in-uae\|title = Mbrsc launches first CubeSat mission with American University of Sharjah\|date = November 2014\|access-date = \|website = \|publisher = \|last = \|first = }}</ref> For the Nayif-1 project, MBRSC established a partnership with the ] (AUS) in order to provide the engineering students with hands-on experience in satellite manufacturing, testing and operations.<ref name=":8" />
			{{main\|Crew and Science Airlock Module}}
			The MBRSC in partnership with NASA is provided the airlock component of the ]. It is planned to be delivered to the station in 2031 on the ] mission.<ref>{{Cite web \|date=2024-06-05 \|title=UAE Announces its Participation in Nasa’s Lunar Gateway Station {{!}} UAE Embassy in Washington, DC \|url=https://www.uae-embassy.org/news/uae-announces-its-participation-nasa%E2%80%99s-lunar-gateway-station \|access-date=2024-06-18 \|website=UAE Announces its Participation in Nasa’s Lunar Gateway Station {{!}} UAE Embassy in Washington, DC \|language=en}}</ref>

			== Emirates Mars Mission ==
	The Nayif-1 team consists of seven engineering students from the American University of Sharjah in ], ] and ] disciplines. The satellite will be operated by these students, from the ground station to be built onsite at the American University of Sharjah.<ref name=":8" />
			{{main\|Emirates Mars Mission}}
			], director of the programs management, Mohammed bin Rashid Space Centre speaking at the ] (2024)]]
			The Emirates Mars Mission, also known as the Hope Mars Mission, is a mission aimed at sending an unmanned probe to ] by 2021. The probe arrived in February 2021, which marks the 50th year since the founding of the ].<ref>{{Cite news\|url=http://mbrsc.ae/en/news/emirates-space-mission-hopes-to-launch-new-era-in-middle-east \|title=Emirates space mission hopes to launch new era in Middle East\|date=August 2014}}</ref>

			The Emirates Mars Mission is the first ever ] mission to be carried out by the ], and it is expected to drive the ] towards a new era of technological advancement.<ref name=":9">{{Cite news\|url=https://www.bbc.com/news/business-34790041\|title=BBC News - The United Arab Emirates Mission to Mars\|date=November 2015}}</ref> Mohammed bin Rash-id Al Maktoum named the probe to Mars as the "Hope Probe" or "Al-Amal" in Arabic, as it carries the hopes for scientific development in the region.<ref name=":10">{{Cite news \|url=http://www.thenational.ae/uae/uaes-mars-space-mission-has-a-new-name-hope\|title=The National UAE - UAE Mars Mission has a name 'Hope'\|date=May 2015}}</ref> The launch window for the Hope Probe fell in July 2020, marking the point when Earth and Mars were aligned in their orbits around the Sun and were closest to one another. The probe successfully launched on July 19. The completion and launch of the Hope Probe by this time was crucial as the next alignment would not take place before two years after 2020.<ref name=":9"/>
	With a dimension of 10×10×11.35 cm<sup>3</sup> and a weight of 1.32 kg, the ] will produce a communication footprint ranging from 5,000 to 5,500 km and it will orbit at a height between 450 km and 720 km for up to three years. The satellite will re-broadcast text messages to the world and it will collect data to help academic institutions in conducting different types of research.<ref name=":8" />

			Mohammed bin Rashid Al Maktoum stated that the Emirates Mars Mission sends three important messages to the world: "The first is for the world: that Arab civilization once played a great role in contributing to human knowledge and will play that role again. The second is to our Arab brethren: that nothing is impossible and that we can compete with the greatest of nations in the race for knowledge. The third is for those who strive to reach the highest of peaks: set no limits to your ambitions and you can even reach space".<ref name=":10"/>
	== Emirates Mars Mission ==
	{{main\|Mars Hope}}

			The Hope Probe is compact and hexagonal in shape and structure, weighing around 1500 kg including fuel. The probe is 2.37 m wide and 2.90 m tall, the overall size being approximately equivalent to a small car. "Hope" will use three 600-watt solar panels to charge its batteries and it will communicate with Earth using a high-gain antenna with a 1.5 m wide dish. The spacecraft will also be equipped with star tracker sensors that will help determine its position in space by studying the constellations in relation to the Sun. Two sets of rocket thruster and four to six large ] thrusters, will control the speed of the probe and eight to 12 small ] (RCS) thrusters will be responsible for the delicate maneuvering.<ref>{{Cite web \|url=http://emm.ae/mars-probe/\|title=Emirates Mars Mission - Mars Probe}}</ref>
	The Emirates Mars Mission, ], was announced by Sheikh Mohammed bin Rashid in July 2014. The mission is aimed at sending an unmanned probe to ] by 2021. The probe is expected to arrive seven months later, half a century to the year since the founding of the ], a union of seven emirates on the Arabian Gulf ''''.<ref>{{Cite news\|url = http://mbrsc.ae/en/news/emirates-space-mission-hopes-to-launch-new-era-in-middle-east\|title = Emirates space mission hopes to launch new era in Middle East\|last = \|first = \|date = August 2014\|work = \|access-date = \|via = }}</ref>

			The expected travel time of the Hope Probe is about 200 days at a speed of up to {{convert\|40000\|km/h\|km/s}} on its journey of 60 million kilometers. Upon arrival at Mars, it will study the ] for two years. Its unique placement in orbit around Mars will provide a new type of data to build "the first truly holistic models" of the Martian atmosphere. The data is expected to provide reasons for the decay of the atmosphere to a level where it is now too thin to allow liquid water to exist.<ref>{{Cite news\|url=http://gulfnews.com/news/uae/government/uae-unveils-details-of-uae-mars-mission-1.1505710 \|title=Gulf News - UAE unveils details of UAE Mars Mission\|date=May 2015}}</ref> The Hope Probe will carry three scientific instruments to study the Martian atmosphere, which include a digital camera for high resolution colored images, an ] that will examine the temperature patterns, ice, water vapors in the atmosphere, and an ultraviolet spectrometer that will study the upper atmosphere and traces of oxygen and hydrogen further out into space.<ref name=":10"/>
	The Emirates Mars Mission is the first ever ] mission to be carried out by the ], and it is expected to drive the ] towards a new era of technological advancement.<ref name=":9">{{Cite news\|url = http://www.bbc.com/news/business-34790041\|title = BBC News - The United Arab Emirates Mission to Mars\|last = \|first = \|date = November 2015\|work = \|access-date = \|via = }}</ref> His Highness Sheikh Mohammed bin Rashid Al Maktoum named the probe to Mars as the ‘Hope Probe’ or ‘Al-Amal’ in Arabic, as it carries the hopes for scientific development in the region.<ref name=":10">{{Cite news\|url = http://www.thenational.ae/uae/uaes-mars-space-mission-has-a-new-name-hope\|title = The National UAE - UAE Mars Mission has a name 'Hope'\|last = \|first = \|date = May 2015\|work = \|access-date = \|via = }}</ref> The launch window for the Hope Probe falls in July 2020, marking the point when Earth & Mars will be aligned in their orbits around the Sun and will be closest to one another. The completion and launch of the Hope Probe by this time is crucial as the next alignment will take place two years after 2020.<ref name=":9" />

			The Emirates Mars Mission team includes 150 Emirati engineers, with ] as the Project Manager; Sarah Amiri, Deputy Project Manager; Ibrahim Hamza Al Qasim, Deputy Project Manager, Strategic Planning, and Zakareyya Al Shamsi, Deputy Project Manager for the Emirates Mars Mission Operations.<ref>{{Cite web\|url=http://emm.ae/mars-team/\|title=Emirates Mars Mission - Mars Team}}</ref>
	Sheikh Mohammed bin Rashid Al Maktoum started that the Emirates Mars Mission sends three important messages to the world: “The first is for the world: that Arab civilization once played a great role in contributing to human knowledge and will play that role again. The second is to our Arab brethren: that nothing is impossible and that we can compete with the greatest of nations in the race for knowledge. The third is for those who strive to reach the highest of peaks: set no limits to your ambitions and you can even reach space.”<ref name=":10" />

			The ] and ] set up a joint working group regarding this mission in 2019.<ref>{{Cite web\|url=https://www.financialexpress.com/lifestyle/science/big-thumbs-up-for-india-isro-to-help-uae-launch-its-first-spacecraft-hope-probe/1680757/\|title=Big thumbs up for India! ISRO to work with UAE for its first spacecraft "Hope Probe" launch\|date=August 20, 2019}}</ref>
	The Hope Probe will be compact and hexagonal in shape & structure, weighing around 15,000 kg including fuel. The probe will be 2.37 m wide and 2.90 m tall, the overall size being approximately equivalent to a small car. ‘Hope’ will use three 600-watt solar panels to charge its batteries and it will communicate with Earth using a high-gain antenna with a 1.5 m wide dish. The spacecraft will also be equipped with star tracker sensors that will help determine its position in space by studying the constellations in relation to the Sun. Two sets of rocket thrusters and four to six large ‘Delta V’ thrusters, will control the speed of the probe and eight to 12 small ] (RCS) thrusters will be responsible for the delicate maneuvering.<ref>{{Cite web\|url = http://emm.ae/mars-probe/\|title = Emirates Mars Mission - Mars Probe\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

			== Emirates Lunar Mission ==
	The expected travel time of the Hope Probe is about 200 days at a speed of up to {{convert\|40000\|km/h\|km/s}} on its journey of 60 million kilometres. Upon arrival at Mars, it will study the ] for two years. Its unique placement in orbit around Mars will provide a new type of data to build "the first truly holistic models" of the Martian atmosphere. The data is expected to provide reasons for the decay of the atmosphere to a level where it is now too thin to allow liquid water to exist. <ref>{{Cite news\| url = http://gulfnews.com/news/uae/government/uae-unveils-details-of-uae-mars-mission-1.1505710\|title = Gulf News - UAE unveils details of UAE Mars Mission\| \|date = May 2015\|work = \|access-date = \|via = }}</ref> The Hope Probe will carry three scientific instruments to study the Martian atmosphere, which include a digital camera for high resolution coloured images, an ] that will examine the temperature patterns, ice, water vapors in the atmosphere, and an ultraviolet spectrometer that will study the upper atmosphere and traces of oxygen and hydrogen further out into space.<ref name=":10" />
			{{main\|Emirates Lunar Mission}}

			he Emirates Lunar Mission is part of the new 2021-2031 strategy launched by the Mohammed bin Rashid Space Center (MBRSC), which includes the development and launch of the first Emirati lunar rover named “Rashid”, after the late Sheikh Rashid bin Saeed Al Maktoum, builder of modern Dubai.
	The Emirates Mars Mission team includes 150 Emirati engineers, with ] as the Project Manager; Sarah Amiri, Deputy Project Manager; Ibrahim Hamza Al Qasim, Deputy Project Manager, Strategic Planning, and Zakareyya Al Shamsi, Deputy Project Manager for the Emirates Mars Mission Operations.<ref>{{Cite web\|url = http://emm.ae/mars-team/\|title = Emirates Mars Mission - Mars Team\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

			Rashid is the world's most compact rover designed and manufactured by MBRSC, with a name that embodies UAE's passion and ambitions to take on and overcome challenges. It will study various aspects such as the thermal properties of the lunar surface and the formation and components of the lunar soil and pave the way for human exploration beyond the Moon.
	== Team & leadership ==
	MBRSC is headed by Director General, Yousuf Hamad Al Shaibani, who is responsible for all administrative and space project-related policies.<ref>{{Cite web\|url = http://mbrsc.ae/en/page/dg-message\|title = MBRSC - Director General, Yousuf Hamad AlShaibani\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

			The Emirates Lunar Mission is a pivotal step towards the Mars 2117 program, which aims to build a human settlement on Mars by 2117.
	The centre's hierarchy is divided into two main sectors: the Scientific and Technical Affairs Sector, and the Administrative & Financial Sector. Both the sectors have their own objectives and policies. The team’s structure follows a hierarchy defined to ensure that all strategic objectives are met with the highest level of excellence.<ref name=":11">{{Cite web\|url = http://mbrsc.ae/en/page/organizational\|title = Mohammed Bin Rashid Space Centre, Organizational Structure\|date = \|access-date = \|website = \|publisher = \|last = \|first = }}</ref>

			== Team and leadership ==
	Salem Humaid Al Marri serves as the Assistant Director General for Scientific & Technical Affairs, while Mona Ahmed Al Qemzi serves as the Assistant Director General for Administrative & Financial Affairs. Mohammed Abdul Rahim Al Harmi heads the Space Operation Department, Omran Sharaf heads the Program Management Department and the Space Systems Development Department is headed by Amer Mohammad Al Sayegh.<ref name=":11" />
			MBRSC is headed by Director General Salem Humaid AlMarri, who is responsible for all administrative and space project-related policies.<ref>{{Cite web\|url = http://mbrsc.ae/en/page/dg-message\|title=MBRSC - Director General, Yousuf Hamad AlShaibani}}</ref>

			The center's hierarchy is divided into two main sectors: the Scientific and Technical Affairs Sector, and the Administrative and Financial Sector. Both the sectors have their own objectives and policies. The team's structure follows a hierarchy defined to ensure that all strategic objectives are met with the highest level of excellence.<ref name=":11">{{Cite web \|url=http://mbrsc.ae/en/page/organizational \|title=Mohammed Bin Rashid Space Centre, Organizational Structure}}</ref>

			== UAE Astronaut Program ==
			Following the launch of the UAE Astronaut Programme<ref>{{Cite web\|url=https://mbrsc.ae/astronauts/en/astronauts\|title=UAE Astronaut Programme\|website=mbrsc.ae\|language=en\|access-date=2018-09-03}}</ref> in late 2017, a national effort to select four full-time astronauts to train and rotate in a long-term effort to carry out scientific research in the International Space Station, 95 candidates were selected from over 4,022 applicants. Following psychometric, ability and medical assessments, these 95 candidates were whittled down to a group of 39,<ref>{{Cite web\|url=https://www.khaleejtimes.com/news/general/39-candidates-pass-fitness-tests-in-uae-astronaut-programme\|title=39 candidates pass fitness tests in UAE Astronaut Programme\|author=Staff Report\|website=www.khaleejtimes.com\|access-date=2018-09-03}}</ref> who were subjected to interviews and psychology tests. Of the 18 candidates who passed this phase<ref>{{Cite news\|url=https://gulfnews.com/news/uae/government/18-emiratis-enter-final-stage-of-uae-astronaut-programme-1.2246769\|title=18 Emiratis enter final stage of UAE Astronaut Programme\|author=Staff Report\|date=2018-07-04\|work=GulfNews\|access-date=2018-09-03}}</ref> who were interviewed by MBRSC and representatives of other agencies, nine final candidates passed through to the last stage of assessment.<ref>{{Cite web\|url=http://english.alarabiya.net/en/variety/2018/07/11/Final-nine-Emirati-space-astronauts-ready-for-final-phase-of-evaluations.html\|title=Nine Emiratis out of 4,022 applicants in final assessment of astronaut program\|website=english.alarabiya.net\|date=11 July 2018 \|language=en\|access-date=2018-09-03}}</ref>

			Of these, two astronauts were announced in September 2018 - ] and ].<ref>{{Cite web\|url=https://www.mbrsc.ae/astronauts/\|title=MBRSC ASTRONAUTS – UAE Astronaut Programme}}</ref> It was later announced that AlMansoori will fly as the prime crew member, with AlNeyadi as his backup. He launched on 25 September 2019 on board ], and landed on ] on 3 October 2019.<ref>{{Cite web\|url=https://gulfnews.com/uae/science/100-days-to-go-for-first-emirati-to-enter-space-1.64663918\|title=100 days to go for first Emirati to enter space\|website=gulfnews.com\|date=17 June 2019 }}</ref>

			It will be an eight-day stay on the ] (ISS), where AlMansoori will carry out several scientific experiments before his return on 3 October 2019. The UAE's first astronaut would be accompanied by Russian cosmonaut ] and American astronaut ]. Hazzaa AlMansoori will receive a special menu with traditional Emirati dishes that would be prepared by Space Food Laboratory company.<ref>{{cite web\|url=https://gulfnews.com/uae/science/first-emirati-astronaut-gets-personalised-halal-menu-in-space-1.1562497024589\|title=First Emirati astronaut gets personalised halal menu in space\|date=7 July 2019 \|access-date=7 July 2019\|publisher=Gulf News}}</ref>

			On 26 August 2019, the Emirates announced that AlMansoori will carry out 16 scientific experiments in cooperation with international space agencies. He has spent more than 1,400 hours on training and undertaken 90 courses within a year. It was also announced that the Emirati astronaut has completed all pre-spaceflight medical experiments a month before the launch.<ref>{{cite web\|url=https://www.bna.bh/en/UAEastronautAlMansoorisspaceflightmedicalcompleted.aspx?cms=q8FmFJgiscL2fwIzON1%2bDnWNvg4OOEQBzRge7GZbwyQ%3d\|title=UAE astronaut Al Mansoori's spaceflight medical completed \|access-date=27 August 2019\|publisher=Bahrain News Agency}}</ref>

			In September 2019, it was reported that the Emirati astronaut will carry 30 ] seeds, along with the UAE flag on his space mission. The seeds were announced to be planted across the country after they are returned.<ref>{{cite web\|url=http://www.collectspace.com/news/news-092419a-almansoori-arab-emirates-space-mementos.html\|title=First Emirati astronaut to fly UAE flag and tree seeds to space station\|access-date=24 September 2019\|website=Collect Space}}</ref>

			H.E. Dr. Sultan AlNeyadi is the UAE Minister of Youth, astronaut and the first Arab to serve on the International Space Station (ISS) for a 6-month mission, as part of Expedition 69.

			AlNeyadi undertook the longest Arab space mission in history and became the first Arab to conduct a spacewalk during Expedition 69, which lasted 7 hours and 1 minute. During his time of over 4,000 hours aboard the ISS, he spearheaded multiple research experiments and studies in collaboration with NASA, European Space Agency (ESA), Canadian Space Agency (CSA), Japan Aerospace Exploration Agency (JAXA) and the National Center for Space Studies (CNES) on a wide range of topics.

			Prior to his mission, AlNeyadi trained at the Yuri Gagarin Cosmonaut Training Center in Moscow, NASA's Johnson Space Center in Houston, and the European Astronaut Center in Cologne. The training spanned five years, included over 90 courses, and covered a wide range of emergency procedures, everyday ISS operations, training in the Neutral Buoynacy Laboratory, flight training and survival skills.

			==List of Emirati astronauts==
			{\| class="wikitable sortable"
			! Name !! Group !! Missions !! Time in space
			\|-
			\| ] \|\| ] \|\| ]/] (]) \|\| 7d 21h 1m<ref name=Spacefacts>{{cite web\|url=http://www.spacefacts.de/bios/international/english/al-mansouri_hazza.htm\|title=Astronaut Biography: Hazza Al Mansouri\|website=www.spacefacts.de}}</ref>
			\|-
			\| ]<sup>]</sup> \|\| ] \|\| None, awaiting assignment \|\| 0d 0h 0m
			\|-
			\| ] \|\| ] \|\| None, awaiting assignment \|\| 0d 0h 0m
			\|-
			\| ] \|\| ] \|\| ] (]/]) \|\| 185d 22h 43m
			\|}

	== Facility ==		== Facility ==

	The ~~Headquarters~~ of Mohammed Bin Rashid Space ~~Centre~~ is located at ], Dubai. The facility also includes a Clean Room for designing and manufacturing of various space satellites being worked upon by the MBRSC.<ref>{{Cite web\|url = http://mbrsc.ae/en/page/contact-us\|title = MBRSC Headquarter in Dubai\|~~date~~ = \|~~access~~-date = \|~~website~~ = ~~\|publisher = \|last = \|first =~~ }}</ref>		The headquarters of Mohammed Bin Rashid Space Center is located at ], ]. The facility also includes a Clean Room for designing and manufacturing of various space satellites being worked upon by the MBRSC.<ref>{{Cite web\|url=http://mbrsc.ae/en/page/contact-us\|title=MBRSC Headquarter in Dubai\|archive-url= https://web.archive.org/web/20160301123450/http://mbrsc.ae/en/page/contact-us\|archive-date=2016-03-01\|url-status=dead}}</ref>

	The facility includes a ] which has been manufactured to ensure smooth execution of all satellite manufacturing projects and development of the Hope Probe.<ref>{{Cite web		The facility includes a ] which has been manufactured to ensure smooth execution of all satellite manufacturing projects and development of the Hope Probe.<ref>{{Cite web
	\| url = http://www.cleanroomtechnology.com/technical/article_page/New_cleanroom_gets_Middle_East_space_programme_closer_to_lift_off/111637		\|url=http://www.cleanroomtechnology.com/technical/article_page/New_cleanroom_gets_Middle_East_space_programme_closer_to_lift_off/111637\|title=New clean room gets Middle East space programme closer to lift off
			\|date=September 2015}}</ref> All the ongoing projects, including manufacturing of the ]s, including Khalifa Sat and Nayif-1, along with development of Hope Probe, are carried out in the clean room by Emirati engineers.<ref>{{Cite web\|url=http://www.globalsecurity.org/space/world/uae/khalifasat.htm\|title=KhalifaSat
	\| title = New clean room gets Middle East space programme closer to lift off
	\| last =
	\| first =
	\| date = September 2015
	\| website =
	\| publisher =
	\| access-date =
	}}</ref> All the on-going projects including manufacturing of the ] including KhalifaSat and Nayif-1 along with development of Hope Probe are being carried out in the clean room by Emirati engineers.<ref>{{Cite web
	\| url = http://www.globalsecurity.org/space/world/uae/khalifasat.htm
	\| title = KhalifaSat
	\| last =
	\| first =
	\| date =
	\| website =
	\| publisher =
	\| access-date =
	}}</ref>		}}</ref>

	== Collaboration ==		== Collaboration ==
	MBRSC is part of the Global Alliance of Earth Observation Satellites Operators – PanGeo. This is a collaboration between Dauria Aerospace (US/Russia), MBRSC (UAE), Elecnor Deimos (Spain) and Beijing Space Eye Innovation Technology (China). These four entities agreed to share the products, data and images derived from their satellites, as part of the PanGeo alliance.<ref>{{Cite news\|url = http://mbrsc.ae/en/news/to-organize-the-global-alliance-for-earth-observation\|title = MBRSC to organize the global alliance for earth observation~~\|last = \|first =~~ \|date = October 2014~~\|work = \|access-date = \|via =~~ }}</ref>		MBRSC is part of the Global Alliance of Earth Observation Satellites Operators – PanGeo. This is a collaboration between Dauria Aerospace (US/Russia), MBRSC (UAE), Elecnor Deimos (Spain) and Beijing Space Eye Innovation Technology (China). These four entities agreed to share the products, data and images derived from their satellites, as part of the PanGeo alliance.<ref>{{Cite news\|url=http://mbrsc.ae/en/news/to-organize-the-global-alliance-for-earth-observation\|title=MBRSC to organize the global alliance for earth observation\|date=October 2014}}</ref>

	The PanGeo fleet consists of nine satellites currently in orbit~~. These nine satellites are~~: Perseus-M1, Perseus-M2, ], ], ], ], Dauria-DX-1, TH-1-01 and TH-1-02. The fleet will be expanded to more than 30 satellites in the coming years with the launch of KhalifaSat, Perseus-O, Auriga and existing satellites from prospective new members.<ref name=":11" />		The PanGeo fleet consists of nine satellites currently in orbit: Perseus-M1, Perseus-M2, ], ], ], ], Dauria-DX-1, TH-1-01 and TH-1-02. The fleet will be expanded to more than 30 satellites in the coming years with the launch of ], Perseus-O, Auriga and existing satellites from prospective new members.<ref name=":11"/>

	== ~~Programs~~ & applications ==		== Programmes and applications ==
	The Mohammed bin Rashid Space ~~Centre~~ launched the ~~'''~~Advanced Aerial Systems ~~Program'''~~ in September 2014. The ~~program~~ is aimed at developing the capabilities of the UAE for designing, manufacturing and operating advanced aerial system.<ref name=":12">{{Cite news\|url = http://mbrsc.ae/en/news/eiast-launches-its-advanced-aerial-systems-program\|title = MBRSC launches its advanced aerial systems ~~prgram\|last = \|first =~~ \|date = September 2014\|~~work~~ = \|~~access~~-date = \|~~via~~ = }}</ref>		The Mohammed bin Rashid Space Center launched the Advanced Aerial Systems Programme in September 2014. The programme is aimed at developing the capabilities of the UAE for designing, manufacturing and operating advanced aerial system.<ref name=":12">{{Cite news\|url=http://mbrsc.ae/en/news/eiast-launches-its-advanced-aerial-systems-program\|title=MBRSC launches its advanced aerial systems program\|date= September 2014\|archive-url=https://web.archive.org/web/20170112142217/http://mbrsc.ae/en/news/eiast-launches-its-advanced-aerial-systems-program\|archive-date=2017-01-12\|url-status=dead}}</ref>

	The first project under the ~~‘Advance~~ Aerial Systems ~~Program’~~ was the development of a ~~'''~~High Altitude Pseudo Satellite (HAPS)~~'''~~ system in partnership with Airbus DS, one of the companies under the Airbus Group. With the use of highly advanced systems and materials, HAPS has demonstrated the ability to fly continuously for over two weeks, which is 10 times longer than any other ] (UAS) developed to date. The system provides a combination of the benefits of a satellite, in terms of altitude and applications, and an aircraft, in terms of re-usability and coverage.<ref name=":12" />		The first project under the Advance Aerial Systems Program was the development of a ] (HAPS) system in partnership with ], one of the companies under the ]. With the use of highly advanced systems and materials, HAPS has demonstrated the ability to fly continuously for over two weeks, which is 10 times longer than any other ] (UAS) developed to date. The system provides a combination of the benefits of a satellite, in terms of altitude and applications, and an aircraft, in terms of re-usability and coverage.<ref name=":12"/>

	The HAPS system has the ability to fly in the ] at an altitude of 65,600 feet (20 km) above air traffic making it easier for different applications to work effectively. The use of the applications onboard HAPS include thermal imaging, full-HD video imaging (1080p), creation of temporary communication networks and the strengthening of navigation systems. The operational version of the aircraft is expected to go into service by the end of 2016.<ref name=":12" />		The HAPS system has the ability to fly in the ] at an altitude of 65,600 feet (20 km) above air traffic making it easier for different applications to work effectively. The use of the applications onboard HAPS include thermal imaging, full-HD video imaging (1080p), creation of temporary communication networks and the strengthening of navigation systems. The operational version of the aircraft is expected to go into service by the end of 2016.<ref name=":12"/>

	MBRSC also created a ~~‘Super~~ Resolution ~~Tool’~~ in May 2014. The tool has been developed by Saeed Al Mansoori, an engineer at MBRSC, and it has helped in improving the resolution of images taken by DubaiSat-1 and DubaiSat-2 by 0.75 ~~metres~~. It helps in improving the details of the image when zoomed in by significantly increasing the number of pixels.<ref>{{Cite news\|url = http://mbrsc.ae/en/news/eiast-launches-super-resolution-tool-that-enhances-resolution-clarity-of-satellite-images\|title = MBRSC launches super resolution tool that enhances resolution clarity of satellite images~~\|last = \|first =~~ \|date = May 2014~~\|work = \|access-date = \|via = }}</ref>~~		MBRSC also created a "Super Resolution Tool" in May 2014. The tool has been developed by Saeed Al Mansoori, an engineer at MBRSC, and it has helped in improving the resolution of images taken by DubaiSat-1 and DubaiSat-2 by 0.75 meters. It helps in improving the details of the image when zoomed in by significantly increasing the number of pixels.<ref>{{Cite news\|url=http://mbrsc.ae/en/news/eiast-launches-super-resolution-tool-that-enhances-resolution-clarity-of-satellite-images\|title=MBRSC launches super resolution tool that enhances resolution clarity of satellite images\|date=May 2014
			\|archive-url=https://web.archive.org/web/20170112080821/http://mbrsc.ae/en/news/eiast-launches-super-resolution-tool-that-enhances-resolution-clarity-of-satellite-images\|archive-date=2017-01-12\|url-status=dead}}</ref>

			At the February 2017 World Government Summit, the ] announced a plan to ] by 2117, led by the Mohammed bin Rashid Space Center.<ref></ref><ref></ref>

	== Publication ==		== Publication ==
	The official magazine of MBRSC is called 'Majarat', which is published bi-monthly and focuses on spreading knowledge about space science & technology and inspiring a new generation of United Arab Emirates for a career in space science or scientific research. The magazine is published in both Arabic & English to cater for the cosmopolitan population in the UAE, and has featured a number of notable personalities from the global space industry, including ], ], ], ], ] and NASA astronaut ].		The official magazine of MBRSC is called "Majarat", which is published bi-monthly and focuses on spreading knowledge about space science and technology and inspiring a new generation of United Arab Emirates for a career in space science or scientific research. The magazine is published in both Arabic and English to cater for the cosmopolitan population in the UAE, and has featured a number of notable personalities from the global space industry, including ], ], ], ], ] and NASA astronaut ].

	==Gallery==		==Gallery==
	The following are some of the satellite images taken by ]:		The following are some of the satellite images taken by ]:
			{{gallery\|style=margin:auto
	<center>
	{{gallery
	\|width=125		\|width=125
	\|height=100		\|height=100
			\|File:The world Islands.jpg\|Satellite image of ] in Dubai by DubaiSat-1
	\|lines=4
	\|File:~~The world Islands~~.jpg \| Satellite image of ] ~~in Dubai~~ by DubaiSat-1		\|File:Jumairah-palm.jpg\|Satellite image of ] by DubaiSat-1
	\|File:~~Jumairah-palm~~.jpg \| Satellite image of ] by DubaiSat-1		\|File:Maktoum Airport.jpg\|Satellite image of ] by DubaiSat-1
	\|File:~~Maktoum~~ ~~Airport~~.jpg \| Satellite image of ] by DubaiSat-1		\|File:Egypt Pyramids may 12.jpg\|Satellite image of ], ] by DubaiSat-1
	\|File:~~Egypt~~ ~~Pyramids may 12~~.jpg \| Satellite image of ], ~~] by DubaiSat-1~~		\|File:Ferrari World.jpg\|Satellite image of ] by DubaiSat-1
	\|File:~~Ferrari~~ ~~World~~.jpg \| Satellite image of ] by DubaiSat-1		\|File:UAE cut (edit).jpg\|Satellite image of ] by DubaiSat-1
	\|File:UAE cut (edit).jpg \| Satellite image of ] by DubaiSat-1
	}}		}}
	</center>

	==~~References~~==		==See also==
	{{reflist\|2}}

	==External links==
	{{Portal\|Spaceflight}}		{{Portal\|Spaceflight}}
			* ]
	*
			* ]
	*
			* ]
	*

	*
			==References==
			{{Reflist\|2}}

	{{United Arab Emirates space program}}		{{United Arab Emirates space program}}
	{{Public sector space agencies}}		{{Public sector space agencies}}
			{{Authority control}}

	]		]
	]		]
	]		]
	]		]
	]		]

Latest revision as of 00:47, 14 December 2024

Dubai government entity

Mohammed bin Rashid Space Centre
Agency overview
مركز محمد بن راشد للفضاء

Formed	6 February 2006 (2006-02-06) as the Emirates Institution for Advanced Science and Technology
Jurisdiction	Emirate government of Dubai
Headquarters	Dubai, United Arab Emirates
Agency executive	Salem Humaid AlMarri, Director General
Website	www.mbrsc.ae

The Mohammed Bin Rashid Space Centre (MBRSC, Arabic: مركز محمد بن راشد للفضاء, romanized: markaz Muḥammad bin Rāshid lil-faḍāʾ) is a Dubai Government organization working on the UAE space program, which includes various space satellites projects, such as the Emirates Mars Mission, the Emirates Lunar Mission, and the UAE astronaut program. The center actively works to promote space science and research in the region and encompasses the Emirates Institution for Advanced Science and Technology (EIAST).

Overview

Mohammed bin Rashid Al Maktoum, vice president and prime minister of the United Arab Emirates and ruler of Dubai, established the Emirates Institution for Advanced Science and Technology (EIAST) on 6 February 2006. On 17th April 2015, Mohammed bin Rashid Space Center was created, incorporating EIAST into it.

MBRSC contributes towards the development of various sectors within the United Arab Emirates and across the globe, using data from UAE satellites, and various applications related to space science. The center promotes space science and scientific research in the UAE and the Middle East, while also supporting various organisations in the management of natural disasters, rescue missions, environmental monitoring and land planning with its satellites, such as Dubai-Sat-1 and Dubai-Sat-2.

Creation

To establish a research and knowledge-based economy in the United Arab Emirates, Mohammed bin Rashid Al Maktoum issued a law in 2015, to establish the Mohammed bin Rashid Space Center. MBRSC was tasked to support the country's efforts in the field of space; to supervise the design, manufacturing and launch of the "Hope" probe (Misbar Al-Amal), the Arab world's first Mars probe; and to build an integrated infrastructure for manufacturing satellites and taking advantage of their various applications.

Hamdan bin Mohammed Al Maktoum, Crown Prince of Dubai, was appointed as chairman and general supervisor of the strategic plans and projects of MBRSC in June 2015.

Along with the establishment of the Mohammed Bin Rashid Space Center, Sheikh Mohammed also issued a law to join the Emirates Institution for Advanced Science and Technology (EIAST) with the center and consider it one of its affiliated institutions. As part of the law, EIAST will implement and follow up the policies, plans and decisions set by the Mohammed bin Rashid Space Center. The board of directors of the Mohammed bin Rashid Space center were appointed, including Hamad Obaid Al Sheikh Al Mansoori as chairman of the board, Yusuf Ahmed Al Shahbani as vice chairman; with Mansour Abdullah Bastaki, Mohammed Saif Al Miqbali, and Mansoor Juma Bu Osaiba as appointed members.

The center works to promote Space Technology & Scientific Research in the region through innovative space projects and programs.

Projects

The Mohammed bin Rashid Space Center works across four main areas, in order to achieve the goals and objectives set forth, for the development of the space industry in the region. These areas are: research and development of outer space, satellite manufacturing and systems development, Earth observation through satellite imagery, and ground station services to support other satellites.

The first satellite, DubaiSat-1, was launched on 29 July 2009 from the Baikonur launch site in Kazakhstan, and since then, the center has been building on its expertise to manufacture satellites with advanced technology for better research and development.

DubaiSat-1

Main article: DubaiSat-1

The first satellite launched by MBRSC Was DubaiSat-1, an earth observation satellite built by Satrec Initiative, a South Korean satellite manufacturing firm.

DubaiSat-1 was launched on 29 July 2009 from the Baikonur launch site in Kazakhstan, aboard a Dnepr launch vehicle. With a diameter of around 1.2 meters and a height of 1.35 metres, the satellite has a deck-and-longeron type structure, allowing easy assembly and disassembly. Dubai-Sat-1 weighs less than 200 kg including a 50 kg payload mass, and its average power consumption is less than 150 watts.

Dubai-Sat-1 is in a Low Earth orbit (LEO) and generates high-resolution panchromatic optical images with a resolution of 2.5 m. These images are used for a wide range of applications including infrastructure development, urban planning, and environment monitoring and protection. DubaiSat-1 images are also useful for promoting geosciences and remote sensing research.

Images from Dubai-Sat-1 have been used to monitor the overall development of mega projects like the Palm Islands and Al Maktoum International Airport in Dubai, and to monitor relief efforts during 2011 Tōhoku earthquake and tsunami in Japan.

DubaiSat-2

Main article: DubaiSat-2

Shortly after the successful launch of DubaiSat-1, MBRSC and Satrec Initiative began work on DubaiSat-2, which launched on 21 November 2013 from the Yasny Launch Base in Russia, on a Russian Dnepr rocket, under the supervision of a team of engineers from MBRSC. The communication link with Dubai-Sat-2 was established within an hour after separation from Dnepr rocket, and the satellite took its first image 24 hours after its launch, capturing Bani Yas Island in Abu Dhabi.

Khalifa Sat

Main article: KhalifaSat

On 29 October 2018, MBRSC's most advanced satellite, KhalifaSat, was launched aboard a H-II A rocket from Tanegashima Space Center. KhalifaSat improved upon the capabilities of DubaiSat-2 with a more powerful camera and a faster image download speed. It was also notable for being the first satellite designed and built within the UAE.

Nayif-1

Recording of a transmission of Nayif 1

Nayif-1 is the first ever Cube-Sat designed and manufactured by Emirati engineers, which was originally scheduled for launch in 2016, but delayed waiting for an appropriate SpaceX launch platform to be scheduled. The satellite was launched in February 2017 on the Indian Space Research Organisation PSLV-C37 launch vehicle, which established a world record by launching 104 satellites, the largest number of satellites deployed by a single launcher.

The name of the satellite is derived from the Arabic noun, which means "one that soars high above" or "one that is morally and intellectually superior". For the Nayif-1 project, MBRSC established a partnership with the American University of Sharjah (AUS) in order to provide the engineering students with hands-on experience in satellite manufacturing, testing and operations.

The Nayif-1 team consists of seven engineering students from the American University of Sharjah in electrical, mechanical and computer engineering disciplines. The satellite will be operated by these students, from the ground station to be built onsite at the American University of Sharjah.

With a dimension of 10×10×11.35 cm and a weight of 1.32 kg, the Cube-Sat will produce a communication footprint ranging from 5,000 to 5,500 km and it will orbit at a height between 450 km and 720 km for up to three years. The satellite will re-broadcast text messages to the world and it will collect data to help academic institutions in conducting different types of research.

MBZ-SAT

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The Mohammed Bin Rashid Space Center (MBRSC) in Dubai is currently developing the MBZ-SAT, which is expected to be launched in October 2024. This satellite aims to be the most advanced commercial satellite in the region, focusing on high-resolution satellite imagery. Equipped with an automated system for round-the-clock image processing, MBZ-SAT should provide high-quality satellite images intended for global commercial use.

The project is expected to strengthen the UAE's partnerships in the space industry, integrating efforts between the public and private sectors. MBZ-SAT will address the growing commercial demand for high-resolution satellite images that can capture details within an area of less than one square meter. The Center plans to provide a rapid turnaround of captured data, sharing it with users through an advanced system.

The imagery from MB Z-SAT is anticipated to support various applications, including mapping and analysis, environmental monitoring, navigation, infrastructure management, and disaster relief efforts.

Crew and Science Airlock Module

Main article: Crew and Science Airlock Module

The MBRSC in partnership with NASA is provided the airlock component of the Lunar Gateway. It is planned to be delivered to the station in 2031 on the Artemis 6 mission.

Emirates Mars Mission

Main article: Emirates Mars Mission

The Emirates Mars Mission, also known as the Hope Mars Mission, is a mission aimed at sending an unmanned probe to Mars by 2021. The probe arrived in February 2021, which marks the 50th year since the founding of the United Arab Emirates.

The Emirates Mars Mission is the first ever space exploration mission to be carried out by the Arab World, and it is expected to drive the Middle East towards a new era of technological advancement. Mohammed bin Rash-id Al Maktoum named the probe to Mars as the "Hope Probe" or "Al-Amal" in Arabic, as it carries the hopes for scientific development in the region. The launch window for the Hope Probe fell in July 2020, marking the point when Earth and Mars were aligned in their orbits around the Sun and were closest to one another. The probe successfully launched on July 19. The completion and launch of the Hope Probe by this time was crucial as the next alignment would not take place before two years after 2020.

Mohammed bin Rashid Al Maktoum stated that the Emirates Mars Mission sends three important messages to the world: "The first is for the world: that Arab civilization once played a great role in contributing to human knowledge and will play that role again. The second is to our Arab brethren: that nothing is impossible and that we can compete with the greatest of nations in the race for knowledge. The third is for those who strive to reach the highest of peaks: set no limits to your ambitions and you can even reach space".

The Hope Probe is compact and hexagonal in shape and structure, weighing around 1500 kg including fuel. The probe is 2.37 m wide and 2.90 m tall, the overall size being approximately equivalent to a small car. "Hope" will use three 600-watt solar panels to charge its batteries and it will communicate with Earth using a high-gain antenna with a 1.5 m wide dish. The spacecraft will also be equipped with star tracker sensors that will help determine its position in space by studying the constellations in relation to the Sun. Two sets of rocket thruster and four to six large Delta-v thrusters, will control the speed of the probe and eight to 12 small Reaction Control System (RCS) thrusters will be responsible for the delicate maneuvering.

The expected travel time of the Hope Probe is about 200 days at a speed of up to 40,000 kilometres per hour (11 km/s) on its journey of 60 million kilometers. Upon arrival at Mars, it will study the atmosphere of Mars for two years. Its unique placement in orbit around Mars will provide a new type of data to build "the first truly holistic models" of the Martian atmosphere. The data is expected to provide reasons for the decay of the atmosphere to a level where it is now too thin to allow liquid water to exist. The Hope Probe will carry three scientific instruments to study the Martian atmosphere, which include a digital camera for high resolution colored images, an infrared spectrometer that will examine the temperature patterns, ice, water vapors in the atmosphere, and an ultraviolet spectrometer that will study the upper atmosphere and traces of oxygen and hydrogen further out into space.

The Emirates Mars Mission team includes 150 Emirati engineers, with Omran Sharaf as the Project Manager; Sarah Amiri, Deputy Project Manager; Ibrahim Hamza Al Qasim, Deputy Project Manager, Strategic Planning, and Zakareyya Al Shamsi, Deputy Project Manager for the Emirates Mars Mission Operations.

The United Arab Emirates Space Agency and ISRO set up a joint working group regarding this mission in 2019.

Emirates Lunar Mission

Main article: Emirates Lunar Mission

he Emirates Lunar Mission is part of the new 2021-2031 strategy launched by the Mohammed bin Rashid Space Center (MBRSC), which includes the development and launch of the first Emirati lunar rover named “Rashid”, after the late Sheikh Rashid bin Saeed Al Maktoum, builder of modern Dubai.

Rashid is the world's most compact rover designed and manufactured by MBRSC, with a name that embodies UAE's passion and ambitions to take on and overcome challenges. It will study various aspects such as the thermal properties of the lunar surface and the formation and components of the lunar soil and pave the way for human exploration beyond the Moon.

The Emirates Lunar Mission is a pivotal step towards the Mars 2117 program, which aims to build a human settlement on Mars by 2117.

Team and leadership

MBRSC is headed by Director General Salem Humaid AlMarri, who is responsible for all administrative and space project-related policies.

The center's hierarchy is divided into two main sectors: the Scientific and Technical Affairs Sector, and the Administrative and Financial Sector. Both the sectors have their own objectives and policies. The team's structure follows a hierarchy defined to ensure that all strategic objectives are met with the highest level of excellence.

UAE Astronaut Program

Following the launch of the UAE Astronaut Programme in late 2017, a national effort to select four full-time astronauts to train and rotate in a long-term effort to carry out scientific research in the International Space Station, 95 candidates were selected from over 4,022 applicants. Following psychometric, ability and medical assessments, these 95 candidates were whittled down to a group of 39, who were subjected to interviews and psychology tests. Of the 18 candidates who passed this phase who were interviewed by MBRSC and representatives of other agencies, nine final candidates passed through to the last stage of assessment.

Of these, two astronauts were announced in September 2018 - Hazzaa AlMansoori and Sultan AlNeyadi. It was later announced that AlMansoori will fly as the prime crew member, with AlNeyadi as his backup. He launched on 25 September 2019 on board Soyuz MS-15, and landed on Soyuz MS-12 on 3 October 2019.

It will be an eight-day stay on the International Space Station (ISS), where AlMansoori will carry out several scientific experiments before his return on 3 October 2019. The UAE's first astronaut would be accompanied by Russian cosmonaut Oleg Skripochka and American astronaut Jessica Meir. Hazzaa AlMansoori will receive a special menu with traditional Emirati dishes that would be prepared by Space Food Laboratory company.

On 26 August 2019, the Emirates announced that AlMansoori will carry out 16 scientific experiments in cooperation with international space agencies. He has spent more than 1,400 hours on training and undertaken 90 courses within a year. It was also announced that the Emirati astronaut has completed all pre-spaceflight medical experiments a month before the launch.

In September 2019, it was reported that the Emirati astronaut will carry 30 Al Ghaf tree seeds, along with the UAE flag on his space mission. The seeds were announced to be planted across the country after they are returned.

H.E. Dr. Sultan AlNeyadi is the UAE Minister of Youth, astronaut and the first Arab to serve on the International Space Station (ISS) for a 6-month mission, as part of Expedition 69.

AlNeyadi undertook the longest Arab space mission in history and became the first Arab to conduct a spacewalk during Expedition 69, which lasted 7 hours and 1 minute. During his time of over 4,000 hours aboard the ISS, he spearheaded multiple research experiments and studies in collaboration with NASA, European Space Agency (ESA), Canadian Space Agency (CSA), Japan Aerospace Exploration Agency (JAXA) and the National Center for Space Studies (CNES) on a wide range of topics.

Prior to his mission, AlNeyadi trained at the Yuri Gagarin Cosmonaut Training Center in Moscow, NASA's Johnson Space Center in Houston, and the European Astronaut Center in Cologne. The training spanned five years, included over 90 courses, and covered a wide range of emergency procedures, everyday ISS operations, training in the Neutral Buoynacy Laboratory, flight training and survival skills.

List of Emirati astronauts

Name	Group	Missions	Time in space
Hazzaa AlMansoori	1 (2018)	Soyuz MS-15/MS-12 (19th Visiting Expedition)	7d 21h 1m
Nora AlMatrooshi	2 (2021)	None, awaiting assignment	0d 0h 0m
Mohammad AlMulla	2 (2021)	None, awaiting assignment	0d 0h 0m
Sultan AlNeyadi	1 (2018)	SpaceX Crew-6 (Expedition 68/69)	185d 22h 43m

Facility

The headquarters of Mohammed Bin Rashid Space Center is located at Al Khawaneej, Dubai. The facility also includes a Clean Room for designing and manufacturing of various space satellites being worked upon by the MBRSC.

The facility includes a clean room which has been manufactured to ensure smooth execution of all satellite manufacturing projects and development of the Hope Probe. All the ongoing projects, including manufacturing of the earth observation satellites, including Khalifa Sat and Nayif-1, along with development of Hope Probe, are carried out in the clean room by Emirati engineers.

Collaboration

MBRSC is part of the Global Alliance of Earth Observation Satellites Operators – PanGeo. This is a collaboration between Dauria Aerospace (US/Russia), MBRSC (UAE), Elecnor Deimos (Spain) and Beijing Space Eye Innovation Technology (China). These four entities agreed to share the products, data and images derived from their satellites, as part of the PanGeo alliance.

The PanGeo fleet consists of nine satellites currently in orbit: Perseus-M1, Perseus-M2, DubaiSat-1, DubaiSat-2, Deimos-1, Deimos-2, Dauria-DX-1, TH-1-01 and TH-1-02. The fleet will be expanded to more than 30 satellites in the coming years with the launch of Khalifa Sat, Perseus-O, Auriga and existing satellites from prospective new members.

Programmes and applications

The Mohammed bin Rashid Space Center launched the Advanced Aerial Systems Programme in September 2014. The programme is aimed at developing the capabilities of the UAE for designing, manufacturing and operating advanced aerial system.

The first project under the Advance Aerial Systems Program was the development of a High Altitude Pseudo Satellite (HAPS) system in partnership with Airbus Defence and Space, one of the companies under the Airbus Group. With the use of highly advanced systems and materials, HAPS has demonstrated the ability to fly continuously for over two weeks, which is 10 times longer than any other Unmanned Aerial System (UAS) developed to date. The system provides a combination of the benefits of a satellite, in terms of altitude and applications, and an aircraft, in terms of re-usability and coverage.

The HAPS system has the ability to fly in the stratosphere at an altitude of 65,600 feet (20 km) above air traffic making it easier for different applications to work effectively. The use of the applications onboard HAPS include thermal imaging, full-HD video imaging (1080p), creation of temporary communication networks and the strengthening of navigation systems. The operational version of the aircraft is expected to go into service by the end of 2016.

MBRSC also created a "Super Resolution Tool" in May 2014. The tool has been developed by Saeed Al Mansoori, an engineer at MBRSC, and it has helped in improving the resolution of images taken by DubaiSat-1 and DubaiSat-2 by 0.75 meters. It helps in improving the details of the image when zoomed in by significantly increasing the number of pixels.

At the February 2017 World Government Summit, the United Arab Emirates announced a plan to establish a settlement on Mars by 2117, led by the Mohammed bin Rashid Space Center.

Publication

The official magazine of MBRSC is called "Majarat", which is published bi-monthly and focuses on spreading knowledge about space science and technology and inspiring a new generation of United Arab Emirates for a career in space science or scientific research. The magazine is published in both Arabic and English to cater for the cosmopolitan population in the UAE, and has featured a number of notable personalities from the global space industry, including Farouk El-Baz, Carolyn Porco, Steven Squyres, Frank Drake, Noureddine Melikechi and NASA astronaut Terry Virts.

Gallery

The following are some of the satellite images taken by DubaiSat-1:

Satellite image of The World in Dubai by DubaiSat-1
Satellite image of Palm Islands by DubaiSat-1
Satellite image of Al Maktoum International Airport by DubaiSat-1
Satellite image of The Pyramids of Giza, Egypt by DubaiSat-1
Satellite image of Ferrari World in Abu Dhabi by DubaiSat-1
Satellite image of United Arab Emirates by DubaiSat-1

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"MBRSC launches super resolution tool that enhances resolution clarity of satellite images". May 2014. Archived from the original on 12 January 2017.
UAE's Mars 2117 is put in action
Mars 2117

United Arab Emirates space program

Organizations

United Arab Emirates Space Agency

Facilities

Mohammed bin Rashid Space Centre

Satellites

Low Earth Orbit	DubaiSat-1 DubaiSat-2 KhalifaSat
Lunar missions	Emirates Lunar Mission
Interplanetary missions	Emirates Mars Mission (Hope orbiter) MBR Explorer (planned)

Private spaceflight

Space Imaging Middle East

Astronauts

Public-sector space agencies

Africa

Pan-African and pan-Arab	RASCOM Arabsat
National	ASAL EgSA NARSS ESSTI GSSTC NASRDA SANSA

Americas

North America	CSA NASA NESDIS OSC FAA/AST FCC USSF USSPACECOM NRO
Latin America and the Caribbean	ALCE AEM CONAE ABE AEB DCTA INPE ITA CCE ABAE IVIC

Asia

Pan-Asian	APSCO
Central Asia	KazCosmos Roscosmos SRI VK TNSA
East Asia	CNSA SASTIND CASC CALT CAST CCF CGWIC PLAASF CASIC JAXA ISAS JSS NICT NATA KASA KARI KASI SaTReC TASA
South Asia	SPARRSO ISRO Antrix Corp DoS NRSC DSA SUPARCO
Southeast Asia	BRIN ORPA INASA MYSA PhilSA SSTL GISTDA VNSC
West Asia	ArmCosmos MAKA NSSA NEHSA ISA ISRC ISA NCSR SSA KACST-SRI SSA GORS TUA TÜBİTAK UZAY UAESA (MBRSC)

Europe

Pan-European	CEN/CENELEC CEPT ETSI Eurocontrol ECAC ESA ECSS ESTEC EAC ESRIN ECSAT ESAC ESOC ESTRACK Guiana Space Centre EUMETSAT EUTELSAT IGO ESO
EU and EEA	DG DEFIS EUSPA EU SatCen EASA BEREC ALR BELSPO BIRA-IASB SRTI CSO DTU Space ESO CNES AAE CdE DLR HSA HSO ASI LSA LSO SRON NSO NOSA POLSA CBK PAN UKE KRRiT ORO ULC PTSPACE ROSA INTA AEC EAE AEE SNSA
Other	ArmCosmos MAKA BSA KazCosmos Roscosmos SRI VVKO SSO TUA TÜBİTAK UZAY SSAU UKSA