Dniepr - Dom - 21.11.2013

Est attendu le lancement d'un vecteur Dnepr depuis Yasni (Dombarovsky) le 21 novembre 2013.
Pas moins de 32 satellites seront placés en orbite à partir de trois "dispender" attaches au module SHM
du dernier étage lanceur. Le satellite que j'attends est le Funcub-1 de l'AMSAT-UK qui sera monté sur
le dispender ISIPOD.
Bien entendu il s'agit essentiellement de micro et pico sat dont la liste et l'utilité sont donnés à cette URL :

http://www.zarya.info/blog/?p=1745

Space Track (NORAD) va avoir du travail pour identifier tout ce petit monde :shock:

Un "up" pour ce sujet, le lancement étant prévu dans moins de 20H....
http://lanceurs.destination-orbite.net/lancements.php
(Ci-joint la fiche détaillée de yantar)

Webcast: http://www.tv-tsenki.com/index2.php

32 satellites, c'est un record mondial pour un lancement, mais relativisons, ce ne sont que des micro et nano sat.

Oui, mais les américains qui viennent tout juste de lancer un Minautor avec 29 micro-satellites vont tordre le nez.
Ils comptaient bien avoir le record ... au moins quelques jours :lolnasa: 

Crowned with a record-setting horde of 29 satellites, a Minotaur 1 rocket bounded into the sky from Virginia on Tuesday night

Je me posais la question du travail que va devoir abattre NORAD pour identifier tout ce petit monde, c'était sans compter la réussite de Minotaur :eeks:

Lancement réussi à 7h10 GMT





http://www.spaceflight101.com/denpr-2013-cluster-launch-updates.html

quelqu'un sait-il où on peut avoir une liste de ces satellites lancé par les américains d'une part, par les russes d'autre part : je souhaiterais savoir s'il y a des universités, entre autres européennes parmi les fabricants de ces microsatellites (je suppose qu'il s'agit essentiellement de cube-sat). En Français s'il vous plaît.

En tous cas travail du NORAD ou pas, merci Wakka pour ces premières images du lancement de Dnepr et confirmation dès
la mise en orbite par mon collègue radio amateur Christian (F1FAZ) qui a déjà capté les premiers signaux du FUNCUB-1
encore en "Safe Power Mode" ; cela veut dire que le déploiement complet de ce sat n'est pas encore terminé, mais il fonctionne déjà.

Ah, cela fait du monde ce matin en haut entre Minotaur et Dnepr. :bounce1:

Un premier jet à 09:20 h

Principaux Satellites

Dubaisat 2 – Earth observation satellite built by the Emirates Institution for Advanced Science and Technology for the Satrec Initiative, a
 satellite manufacturing company in South Korea. Its purpose is to obtain images for commercial users in the United Arab Emirates.

STSat-3 – Science satellite from South Korea carrying two principal sensors. MIRIS (Multi-purpose Infrared Imaging System) is for astronomy, providing infrared imagery of the galaxy and of the cosmic background . COMIS (Compact Imaging Spectrometer) is an instrument to provide infrared imagery for Earth environmental monitoring, land classification research, and monitoring of water quality.



Secondary Satellites

Skysat 1 – Commercial remote sensing satellite for Skybox Imaging of the USA. It will collect high resolution panchromatic and multispectral images of the Earth.

Aprizesat 7 – Small satellite for data collection from small fixed and mobile ground stations.

Aprizesat 11 – Small satellite for data collection from small fixed and mobile ground stations.

Unisat 5 – Small satellite built by university students and researchers for GAUSS (Group of Astrodynamics of the University of Roma “La Sapienza”). Onboard equiment includes the GlioSat biomedical experiment to investigate the effects of microgravity and ionizing radiation on
cell behaviour, a digital Earth-imaging system, MRFOD (Morehead-Roma FemtoSat Orbital Deployer) – a student-built technology demonstrator
for deploying satellites, and two PEPPOD CubeSat deployment systems.



Unisat 5 – MRFOD

Eagle 1 (BeakerSat) – 1.5p PocketQubeSat from Morehead State University, Kentucky carrying spacecraft technology tests including a de-orbit system based on increasing air drag by releasing a flat panel to increase the satellite’s cross section and to increase its visibility to radar.

Eagle 2 ($50Sat) 2.5p PocketQubeSat from Morehead State University, Kentucky, measuring the satellite’s thermal environment.

WREN – 2.5p PocketQubeSat built by German company StaKoDo UG. It will test 4 pulsed plasma thrusters, a 3 axis reaction wheel for
stabilisation and a colour camera.

QBScout 1 – 1p PocketQubeSat testing a finely pointing Sun sensor.



Unisat 5 – PEPPOD 1

ICube-1 – 1U Cubesat and the first satellite in Pakistan’s Institute of Space Technology space program. Principally a demonstration satellite including amateur radio capability, includes an imaging device.

HumSat-D (Humanitarian Satellite Network-Demonstrator) – 1U Cubesat designed and developed at the University of Vigo, Spain. Demonstrator for the future HumSat constellation – a store-dump communications system to collect data from ground-based sensors

PUCPSat 1 – 1U Cubesat built by the Institute for Radio Astronomy at Pontificia Universidad Católica del Perú (PUCP). Carries equipment to measure temperature. Included is a smaller satellite Pocket PUCP with a similar mission – it will be released once PUCPSat 1 is in independent orbit.



Unisat 5 – PEPPOD 2

Dove 4 – 3U Cubesat, with Dove 3 on the same launch vehicle, the start of a constellation of Earth imaging satellites operated by California-based Planet Labs.



ISIPOD FM-21

FUNcube-1 – 1U CubeSat from AMSAT-UK and aimed for its transmissions to be received easily be received by schools and colleges and decoded in the classroom. It’s purpose is to provide stimulation and encouragement for students to become interested Science, Technology, Engineering and Mathematics. Also carrying a radio amateur transponder.

Déjà décodé ce matin par un radio amateur français.



HiNCube – 1U Cubesat from Narvik University College, Norway. Satellite built under the Norwegian Student Satellite Program to collect Earth images. Released from ISIPOD FM-26.

ZACUBE-1 – 1U Cubesat built mainly by postgraduate students at South Africa’s Cape Peninsula University of Technology (CPUT). Carries a
beacon at HF for ionospheric studies that will also be used to calibrate the HF SHARE radar located in Antarctica.



ISIPOD FM-22

CubeBug-2 (Manolito) – 2U Cubesat and Argentinian amateur radio satellite will also transmit decodable data on its operational condition.

NEE-02 (Krysaor) – 1U cubesat from the Ecuadorian Civilian Space Agency (EXA). Built as the backup for NEE-01 PEGASO (2013-018B/39151)
 as a technology demonstrator and remote imager. It will also be used as an educational tool for Ecuadorian schools. NEE is an acronym for Nave Espacial Ecuatoriana.



ISIPOD FM-23

First-MOVE – 1U Cubesat built as a demonstration item by students from the Institute of Astronautics of the Technische Universität München.
It carries a solar cell experiment and a camera.Released from ISIPOD FM-23.

UWE-3 (University of Würzburg Experimental Satellite 3) – 1U Cubesat testing an active Attitude Determination and Control System for CubeSats. Folows on from UWE-1 (2005-043C/28892) and UWE-2 (2009-051D/35934).

Velox-PII – 1U Cubesat from Nanyang Technological University, Singapore built as a technology demonstrator and carrying a development
version of a Sun sensor.



Single Satellite ISIPOD Containers

Delfi-n3Xt – 3U Cubesat from Delft University of Technology, equipped with a three-axis attitude determination and control system. Follow on from Delfi-C3 (2008-021G/32789).

Dove-3 – 3U Cubesat, with Dove 4 on the same launch vehicle, the start of a constellation of Earth imaging satellites operated by California-based Planet Labs.

Triton-1 – 3U Cubesat carries a test version of an test an experimental advanced AIS (Automatic Identification System) receiver for picking up location information from ships at sea. Will also transmit readable data for decoding by radio amateurs.

KHUSat-01 (CINEMA 2) – 3U Cubesat, CINEMA stands for “Cubesat for Ion, Neutral, Electron, Magnetic fields”. Second satellite in a trio of identical satellites studying Space Weather effects in near-Earth space. Created by Kyung Hee University and the University of California at Berkeley, USA. CINEMA 1 is 2012-048G/38764.

KHUSat-02 (CINEMA 3) – 3U Cubesat, CINEMA stands for “Cubesat for Ion, Neutral, Electron, Magnetic fields”. Third satellite in a trio of identical satellites studying Space Weather effects in near-Earth space. Created by Kyung Hee University and the University of California at Berkeley, USA. CINEMA 1 is 2012-048G/38764.

OPTOS – 3U Cubesat from the Instituto Nacional de Tecnica Aerospacial of the Spanish Space Agency, Madrid. Carries APIS (Athermalized Panchromatic Image Sensor) to study the degradation of lenses in the space environment by imaging the same region repeatedly under the same light conditions, FIBOS (Fiber Bragg Gratings for Optical Sensing) to measure temperature by studying a laser beam travelling across the optical gratings, and the GMR (Giant Magneto-Resistance) system to study magnetic fluxes in the Earth’s magnetic field.



NLS 9 XPOD 1

BRITE-PL (Lem) – small astronomical satellite as the Polish contribution to the BRITE (Bright Target Explorer) mission, developed by a
consortium of Canadian, Austrian and Polish institutes. It will study the brightest stars in the Miky Way galaxy.Released from NLS 9 XPOD 1.



NLS 9 XPOD 2

WNISat 1 (WeatherNews Inc Satellite 1) – Commercial Arctic Sea monitoring satellite built by AXELSPACE and funded by Weathernews Inc.
of Tokyo, Japan. It aims to provide data to shipping lines who are interested in the Arctic Sea ice state.



NLS 9 XPOD 3 (Double M-2)

GomX-1 – 2U cubesat built under management of GomSpace with assistance by the University of Aalborg, Norway. Its principal purpose is to evaluate use of satellites to monitor ABS-B data transmissions from commercial aircraft on trans-oceanic routes.Released from NLS 9 XPOD 3 (Double M-2).



Upper Rocket Stage

BPA 3/Dnepr (Blok Perspektivnoy Avioniki 3) – Dnepr upper stage carrying a package of Ukranian equipment to test navigation techniques
for aircraft and satellites. and spacecraft.
 This entry was posted in Dnepr, Dombarovsky, Russia and tagged Cubesat, Dnepr, Dombarovsky, Russia by Robert Christy. Bookmark the permalink. 


Bon, Katalpa, j'espère que tu auras de quoi faire pour commencer !

katalpa a écrit:quelqu'un sait-il où on peut avoir une liste de ces satellites lancé par les américains d'une part,

J'ai (re ?) publié la liste des passagers sur la Minotaure 1 dans le FIL correspondant :

http://www.forum-conquete-spatiale.fr/t15303p15-lancement-minotaure-1-ors-3-19112013#297131

Succès du lancement de Dnepr

wakka a écrit:

Cette photo montre le lancement de CryoSat-2, en avril 2010.

nikolai39 a écrit:

wakka a écrit:

Cette photo montre le lancement de CryoSat-2, en avril 2010.

et bien moi j'ai PRISMA et PICARD le 15 juin 2010 :blbl: 
http://www.kosmotras.ru/en/news/94/

alors, une photo qui passe a toutes les sauces ?

wakka a écrit:
et bien moi j'ai PRISMA et PICARD le 15 juin 2010 :blbl: 
http://www.kosmotras.ru/en/news/94/

alors, une photo qui passe a toutes les sauces ?

Non non, c'est bien CryoSat-2 ! La preuve :

http://spaceinimages.esa.int/Images/2010/04/Successful_launch_for_ESA_s_CryoSat-2_ice_mission4

:D

Encore de la publicité mensongère... :megalol:

Ce qui commence à gêner les utilisateurs de ces micro & nanosat c'est que les paramètres orbitaux initiaux donnés par NORAD pour un groupe de satellites placés sur le même dispenseur, commencent à dater et les utilisateurs ont du mal à suivre leurs oiseaux. Par exemple ce matin certains satellites avaient jusqu'à 30 minutes d'avance ou de retard par rapport aux prévisions utilisant les paramètres initiaux. Il va falloir que rapidement le Spacetrack identifie qui est qui car on risque de perdre leur trace dans le ciel. N'oublions pas que certains de ces satellites ont une durée de vie volontairement courte. Ce serait dommage