[SatNews] ...This will act as the embryo to develop necessary infrastructure for all future CubeSat missions.

The Emirates Institution for Advanced Science and Technology (EIAST), in partnership with American University of Sharjah (AUS), launched the UAE’s first CubeSat Mission, a Nanosatellite that offers hands-on experience to engineering students in the design, integration, testing, and operation of a communications satellite. Nayif-1 is in line with UAE’s vision of building a competitive Knowledge Based Economy (KBE) as well as taking steps towards developing the UAE’s Science and Technology sector. The CubeSat is scheduled to be launched on board a Falcon 9 rocket by the end of 2015 where a ground station will be built at AUS and operated by Emirati engineering students, responsible for mission planning and operations.

H.E. Yousuf Hamad Al Shaibani, Director General of EIAST, Dr. Leland Blank, Dean, College of Engineering, AUS and Dr. Mohamed El-Trahuni, Associate Dean and Director CEN Graduate Prog., College of Engineering, AUS

The CubeSat development program, the first of its kind in the UAE, aims at investing and developing capabilities of Emirati engineering students in space technologies. A group of Emiratis consisting of seven students from various engineering disciplines at AUS, including computer engineering, electrical engineering and mechanical engineering, have been assigned to the project. Students will go through an intense systems design and testing training and will partake in the program as their Senior Engineering Design project and participate in the design, assembly, integration and testing of the CubeSat. Nayif-1 will carry out a 1U Communication Mission with development taking place in AUS, EIAST’s facilities and Delft in the Netherlands.

The project will be carried out in partnership with the implementation partner “Innovative Solutions in Space”, one of the leading companies worldwide in the development of space components and NanoSatellite Systems. EIAST will take on the role of the integrator in the process and ensure that all necessary processes are in place to preserve and build upon the experience gained. Its objective will be to put in place all the necessary infrastructure at the University for a CubeSat development program between the implementation partner and AUS’s Emirati students.

Eng. Ibrahim Hamza AlQasimi, Acting Manager, Knowledge Management & Strategic Research Section, EIAST

Nayif-1 will integrate engineering student expertise and capabilities with the expertise, capabilities and resources from UAE industry, government and academia, which is a typical integration cycle in all KBEs, to build and launch CubeSat Mission. This will act as the embryo to develop necessary infrastructure for all future CubeSat missions. It also aims to promote a science culture, and more specifically, space sciences in the UAE making it accessible to young Emirati engineers. Strengthening academia’s capacity by offering such advanced scientific opportunities to Emirati youth will certainly have a clear and positive impact on the Science and Technology sector in the UAE. Nayif-1 scheduled to be launched by the end of 2015.

H.E. Yousuf Hamad Al Shaibani, Director General of EIAST commented on the launch and stated, “this program plays a significant role in developing the Science and Technology sector in the UAE through investing in local talents and capabilities. We expect to have significant involvement of Emirati engineering students with the outcome being a UAE built and owned CubeSat. The program will also aid in establishing the necessary infrastructure at a UAE university to enable an ongoing university satellite program, preparing undergraduate, and later on, post graduate students to enter the UAE’s space technology industry with firm practical knowledge in all disciplines of Satellite Systems Engineering”.

A CubeSat is of standardized and simplified design with an average dimension of 10 cubic centimeters (referred to as “one unit” or “1U”). Its weight is less than or equal to 1 kg; allowing it to be accessible and easily managed by students. CubeSats can also be scaled along one axis by 1U increment so that “2U” refers to CubeSat dimension of 20x10x10 cm and “3U” to 30x10x10 cm dimension.

CubeSat usually utilizes commercial, off-the-shelf components for development and is mainly operated by educational institutes for scientific research purposes. With simple infrastructure, design procedure, available components, and open launch opportunities, CubeSats have become popular in the space industry and an area of interest to educational institutes and governments. Above all, they are cost-effective and an independent means of getting payloads into orbit for learning, testing and verifying space systems.