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Roscosmos will launch one Soyuz-2 rocket on March 20.1а «38 satellites from 18 countries at once
eleven.03.2021 [15:33],
Konstantin Khodakovsky

SpaceX has a special SmallSat Rideshare program to reduce costs by launching an entire mass of vehicles at once for various customers using a single rocket. The last time in the framework of such a Transporter-1 mission, a record number of satellites was launched into orbit — 143. Roscosmos offers similar services, and the next such mission will take place on March 20.

According to the state corporation, during the upcoming launch from the Baikonur cosmodrome, the Soyuz-2.1а «with the Fregat upper stage will launch 38 spacecraft from 18 countries into three sun-synchronous orbits at once. Roskosmos shared photos of the placement of satellites, which during the launch will be hidden under the fairing, as well as a full list of vehicles. By the way, earlier «Roskosmos» published a whole album of photographs, which captured many satellites preparing for launch.

First of all, it should be said about the compact high-tech satellite CAS500-1 for the Korea Aerospace Research Institute (KARI). CAS500 is part of the national program of the South Korean government for the development and operation of medium-class satellites with a mass of 500 kg, equipped with high-resolution optoelectronic equipment, for observing the Earth from low Earth orbit. The main objective of the CAS500-1 is to provide high-resolution electro-optical images.

In addition, we can mention the «space scavenger» ELSA-d from the Japanese company Astroscale. As we already wrote, it will be the first to demonstrate the basic technologies required for docking and space debris removal. Japan will also launch four GRUS-1 satellites B, C, D and E, created by Axelspace to observe the Earth’s surface at regular intervals.

The following spacecraft will also be launched:

  • NAJM-1 from Saudi Arabia — Pilot experimental / educational program for the development of a small satellite with a short duty cycle for imaging the Earth and providing communications from low Earth orbit;
  • DMSAT-1 is a small spacecraft (SSC) developed in the interests of the Mohammed Bin Rashid Space Center for multispectral observation in the visible and near-infrared ranges for the detection and control of aerosols contained in the upper atmosphere;
  • three ADELIS-SAMSON (1, 2, 3) for the Israel Institute of Technology Technion, the purpose of which is to demonstrate the long-term autonomous flight of a cluster consisting of several satellites and to determine the geographic position (geolocation) of a ground transmitter;
  • two Kepler 6/7 from Kepler Communications from Canada. Purpose — broadband communication with a high data rate in the Ku-band, as well as narrowband communication with a low data rate in the S-band. Satellites will provide data transmission services to objects, resources and devices of the Internet of Things located around the globe using the global data service (GDS) and the ubiquitous Internet of things (EverywherelOT);
  • NANOSATC-BR2 — scientific, educational, technological satellite for monitoring the ionosphere and the Earth’s magnetic field of the Southern Regional Space Research Center of the University of Santa Maria, Brazil;
  • KMSL is a scientific satellite for conducting an experiment in microgravity of the College of Engineering, Chosan Gwangju University, Republic of Korea;
  • the Pumbaa and Timon spacecraft for the Astrodynamics and Control Laboratory at Yongsei University in Seoul, whose purpose is to obtain images of the solar corona, including an area 10 times the angular diameter of the Sun;
  • four Beesat-5, 6, 7 and 8 — satellites of the Technical University of Berlin, to demonstrate the communication subsystem in the UHF band; an X-band transmitter, an experimental GNSS (Global Navigation Satellite System) receiver; optical payload to determine the spatial position; determination of range using laser means for accurate determination of the orbit;
  • Hiber-3 from the Netherlands, whose purpose is to provide satellite connectivity to IoT devices;
  • Unisat-7 of the Italian company GAUSS — for testing the technology of precise injection into orbit of small spacecraft of the CubSat format. The program acts as an orbital platform for the deployment of satellites of third-party organizations and will separate six nanosatellites: the German Unicorn-1 for testing the technology of precision launching of small spacecraft of the CubSat format into orbit; Argentine DIY-1 for testing the deorbiting mechanism and flight qualifications of radio equipment and solar panels; the Italian educational and research apparatus FEES; Italian educational and research apparatus STECCO for testing orientation technology using a gravity gradient; Hungarian educational and research apparatus SMOG-1; Thai educational and research apparatus BCCSAT-1;
  • the first satellite of the Higher School of Economics «NRU HSE — DZZ» — was created jointly by the Moscow Institute of Electronics and Mathematics named after. BUT. H. Tikhonov (MIEM NRU HSE) and SPUTNIX;
  • Kubsat 3Yu — equipped with an experimental camera on Fresnel lenses, developed by Samara University, and a high-speed X-band transmitter (MIEM students were engaged in developing satellite control systems);
  • Cubsat of the 3rd Center «Sirius» and the National Research University Higher School of Economics — equipped with an improved device for monitor observations of rapid changes in cosmic radiation fluxes of the DeKoR type. Scientists from the Sirius University and the Institute of Nuclear Physics of the Moscow State University are engaged in the scientific component of the project — they work with a space radiation detector and mathematical algorithms for the mission;
  • Kubsat 6Yu OrbiKraft-Zorkiy of «SPUTNIX» company — equipped with a telescope camera NPO «Lepton» with a high resolution for its size — up to several meters per pixel;
  • SIMBA of the University of Rome La Sapienza for monitoring the behavior of wild animals;
  • GRBAlpha of the University of Kosice — designed to demonstrate detector technology and electronics for the future mission of CAMELOT — a constellation of nanosatellites to cover the entire sky, with high sensitivity and localization accuracy after detecting gamma radiation;
  • satellites created by aerospace company Open Cosmos for Lacuna Space and Sateliot;
  • Challenge One is a satellite for Internet of Things technology, equipped with advanced communication equipment developed at TELNET facilities by qualified specialists from Tunisia. It will form the basis for the creation of a new space ecosystem for Tunisia and its region;
  • KSU CubeSat, developed by the College of Technology (COE) at the University of. King Saud, will transmit telemetry data and photographs from space to a ground station.

The operator of the upcoming launch on March 20 is Glavkosmos Launch Services (part of Roskosmos).

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