The “Adelis-SAMSON” mission, an autonomous group of three nanosatellites constructed and developed by the Technion – Israel institute of Technology, might be launched into orbit on March 20, 2021. The mission is the eagerness of a analysis crew led by Professor Pini Gurfil of the Asher Space Research Institute (ASRI), and the Faculty of Aerospace Engineering, with the assist of the Adelis Foundation, the Goldstein Foundation, and the Israel Space Agency within the Ministry of Science and Technology.

The satellites will piggyback on a Glavkosmos Soyuz rocket from a website in Kazakhstan, and as soon as in orbit, might be used to calculate the placement of individuals, planes, and ships. The cluster of satellites will fly in formation in space by using autonomous communication and management, while not having steering from the bottom.
The Adelis-SAMSON formation consists of three miniature satellites (CubeSats), every weighing about 8 kg (17 ½ lb). Each CubeSat consists of sensors, antennae, laptop methods, management methods, navigation units, and a singular and modern propulsion system. The satellites will journey at an altitude of 550 km (341 mi) above floor and can detect indicators from Earth utilizing a mission receiver developed by IAI. The CubeSats will then transmit these indicators to a mission management middle positioned at Technion’s Asher Space Research Institute.

“Basic research over the course of many years, combined with advanced Israeli technology, allows Israel to take an important step forward in the field of nanosatellites,” defined Prof. Gurfil.

“You could compare the innovation of nanosatellites to switching from the personal computer to the cellphone. The Adelis-Samson project demonstrates a new concept in nanosatellite design and will enable many operations to be carried out that have been reserved until now for large and expensive satellites,” he continued. “This is a leap in the field of miniature satellites, in the capabilities of the Technion, and for the entire State of Israel, and one which will make the Technion a global pioneer in the fields of geolocation and satellite communication, with diverse applications including search and rescue, remote sensing, and environmental monitoring.”

“The Adelis-SAMSON project is a wonderful and exciting example of the successful integration of science and technology and the transformation of innovative ideas into effective systems that contribute to humanity,” stated Professor Uri Sivan, President of the Technion. “Scientific and technological breakthroughs require multidisciplinary research and close collaboration between academia and industry, and this is what has led the project to this important day.”

“The current project continues a Technion tradition that began in 1998 with the successful launch of the Gurwin-TechSat II,” added the Technion President. “That satellite tv for pc has been working in space for greater than 11 years, a report time for tutorial exercise in space. The launch of Adelis-SAMSON is a dramatic second that we now have been ready 9 years for and can comply with intently.

I sincerely thank our companions on the Adelis Foundation, the Goldstein Foundation, the Israel Space Agency, and Israel Aerospace Industries for serving to us make this mission a actuality. Every time you take a look at the sky, keep in mind that the Technion has as soon as once more managed to attain space.”

“For many years there has been a widespread belief that space technologies – and space itself – are the domain of leading economic powers, and are out of reach of ordinary countries,” stated Mrs. Rebecca Boukhris, Trustee of Adelis Foundation. “Today there is no dispute that Israel now belongs to the exclusive club of space powers, thanks to the rapid development of the space industry in Israel. Adelis-SAMSON is a unique project that embodies the Israeli spirit, power and intellectual resources. Israel shows its strength in technology and science and puts itself firmly on the world map of aerospace, all on a modest budget and in an academic environment. The Adelis Foundation sees itself as an organization that sows the seeds of the future and we hope that this project will be the first of many, inspiring other small and brilliant projects to lead Israel’s development in space and bring recognition to the State of Israel.”

The discipline of nano-satellites has been booming not too long ago and the variety of launches is rising yearly,” says Avi Blasberger, director of the Israeli Space Agency at the Ministry of Science and Technology. “The value of creating and launching such satellites, able to performing quite a lot of makes use of, is considerably decrease than these of standard satellites. In the close to future networks are anticipated to seem to embrace 1000’s of nanosatellites that can cowl the Earth and allow high-speed web communication at a considerably decrease value than is at present accessible, in addition to having many different functions such because the one demonstrated within the Adelis-SAMSON satellites.”

“We see great importance in our collaboration with the Technion to promote academic research and future technologies in the field of space,” says IAI President & CEO Boaz Levy. “IAI, Israel’s ‘National Space House’, sees high value in its connection to academia on the business and the technological levels to advance Israel’s continued innovation and leadership in the field of space. This partnership promotes the development of the entire ecosystem and IAI is proud to join forces in this innovative and groundbreaking project.”

Israel’s subsequent technology satellites resulted from distinctive collaboration between academia and trade. A particular propulsion system, primarily based on krypton gasoline, would be the first of its variety on the planet to function on a tiny satellite tv for pc. The digital receiver and the perspective management system had been developed by IAI in collaboration with Technion researchers.

In addition to the propulsion system, the satellites will accumulate vitality by means of photo voltaic panels that might be deployed subsequent to every satellite tv for pc and can function wings that can management, if needed, the flight of the formation with out the usage of gas, utilizing air drag within the environment. Each of the nanosatellites is fitted with a digital receiver, probably the most complicated ever to fly on a nanosatellite.

The system for processing the data on the satellite tv for pc and the algorithms that can hold the formation flying might be among the many first of their variety on the planet, and can assist the autonomous operation of a number of satellites concurrently. The navigation system will embrace two GPS receivers that might be used for autonomous navigation. The communication system by means of which the three nanosatellites will talk with one another in addition to with the bottom station might be operated at three totally different frequencies – a big problem that was resolved within the present mission. A devoted frequency might be used to transmit info to Earth by means of broadband.


There are many companions in Technion’s Adelis-SAMSON mission, together with the Adelis Foundation, the Goldstein Foundation, the Israeli Space Agency within the Ministry of Science and IAI. From the Technion, researchers from the Asher Space Research Institute included Avner Keidar, Hovik Agalarian, Dr. Vladimir Balabanov, Eviatar Edlerman, Yaron Oz, Maxim Rubanovich, Margarita Shamis, Yulia Koneivsky, Tzachi Ezra and Dr. Alex Fried, in addition to many college students over time.

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