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Jean-Paul Le Fvre CEA Saclay, Irfu France Adass XXIII September 2013, Waikoloa, Hawaii, USA The web app architecture The VHF network The Svom mission The registration web site Contact: jean-paul.lefevre@cea.fr d db.sites.insert({ id: id(), name: Saclay, }); db.users.insert({ id: id(), login: nabila, }); mongoose var siteSchema = new app.mongoose.Schema({ name: {type: String, required: true, unique: true}, }); var app = express(); var http = require(http) app.use(app.router); app.use(express.static( path.join(__dirname, 'client'))); http.createServer(app).listen(app.get('port'), function(){ logger.log('info', 'Svom on port %d', app.get('port')); }); Express framework for NodeJs mocha Bootstrap Toolkit, css, html5 widgets Bootswatch Themes Client-side framework Model View Controller The server side The client side In the browser A 100% javascript web application Unit testing the server Svom ( Space-based multi-band astronomical Variable Objects Monitor ) is a Sino-French mission dedicated to the detection, localization and study of GRB (Gamma Ray Bursts) and other high-energy transient phenomena (X-ray bursts, soft gamma repeaters, AGN (Active Galactic Nuclei), novae...). The observations will follow three main stages: 1. Detecting the gamma-ray bursts using space-based equipment capable of providing their position in quasi real time with an accuracy of a few arc minutes. 2. Observing the region of the burst as rapidly as possible using small robot-controlled telescopes to detect optical afterglow in the visible and near-infrared wavelengths and to provide its position with an accuracy of one arc second. 3. Detecting the spectrum of the optical afterglow in the visible and near- infrared wavelengths as rapidly as possible using the largest Earth-based telescopes. To achieve these scientific objectives, the measurements strategy followed for the Svom mission makes the best possible combined use of onboard and ground observations, requiring quasi real time contact with the satellite. A collection of ground stations, known as the VHF alert network, receives the information concerning onboard detection and location of the burst and sends it automatically to the FSC (French Science Centre) in the CEA at Saclay. The data are processed by an automaton which alerts the ground-based instruments of the Svom system as well as the international community. Data about the location of a burst must be conveyed to users in less than a minute in more than 85% of cases. This scientific requirement implies that the satellite must be almost permanently visible to at least one station. Considering the satellites altitude (600 km) and orbital inclination of 30relative to the equator, the VHF alert network requires about 40 stations. The Svom VHF network svomtest.svom.fr a.k.a goo.gl/g8Ab0n VHF receivers should be installed inside the strip 30latitude. About 40 locations should be found. We need help ! If you know a place where it will be possible to set up a VHF station go visit the Svom registration web site. We are seeking organizations, teams or people willing to participate to our adventure.