Caviglione L., Celandroni N., Collina M., Cruisckshank H., Fairhurst G., Ferro E., Gotta A., Luglio M., Roseti C., Secchi R., Sun Z., Vanelli Coralli A.
Electrical and Electronic Engineering SPDY web Media Technology HTTP satellite WebSocket
The goal of this work was to understand the direction of the emerging web technologies and to evaluate their expected impact on satellite networking. Different aspects have been analysed using both real satellite testbeds and emulation platforms in different test sites in Europe. This analysis included an evaluation of those HTTP/2.0 specifications, which were implemented and released as open-source code in the experimental release of the SPDY protocol. SPDY performance was evaluated over satellite testbeds in order to understand the expected interaction with performance-enhancing proxies (including scenarios with a SPDY proxy at a satellite gateway), the impact of security and the effect of satellite capacity allocation mechanisms. The analysis also considered the impact of application protocols and the delay induced by end-system networks, such as a satellite-connected WiFi network.
Source: International journal of satellite communications and networking (Print) 33 (2015): 451–472. doi:10.1002/sat.1120
Publisher: John Wiley & Sons,, Chichester, West Sussex , Regno Unito
@article{oai:it.cnr:prodotti:335913, title = {A deep analysis on future web technologies and protocols over broadband GEO satellite networks}, author = {Caviglione L. and Celandroni N. and Collina M. and Cruisckshank H. and Fairhurst G. and Ferro E. and Gotta A. and Luglio M. and Roseti C. and Secchi R. and Sun Z. and Vanelli Coralli A.}, publisher = {John Wiley \& Sons,, Chichester, West Sussex , Regno Unito}, doi = {10.1002/sat.1120}, journal = {International journal of satellite communications and networking (Print)}, volume = {33}, pages = {451–472}, year = {2015} }