Computer network development to achieve resource sharing
AFIPS '70 (Spring) Proceedings of the May 5-7, 1970, spring joint computer conference
The interface message processor for the ARPA computer network
AFIPS '70 (Spring) Proceedings of the May 5-7, 1970, spring joint computer conference
A Simulation Model of the DOCSIS Protocol
Simulation
A Distributed Channel-Access Protocol for Fully-Connected Networks with Mobile Nodes
IEEE Transactions on Computers
Reservation Channel Access Protocol for High Speed Local Networks with Star Configurations
IEEE Transactions on Computers
On Communications and Networks
IEEE Transactions on Computers
Packet switching with satellites
AFIPS '73 Proceedings of the June 4-8, 1973, national computer conference and exposition
Design issues for mixed media packet switching networks
AFIPS '76 Proceedings of the June 7-10, 1976, national computer conference and exposition
Dynamic control schemes for a packet switched multi-access broadcast channel
AFIPS '75 Proceedings of the May 19-22, 1975, national computer conference and exposition
The organization of computer resources into a packet radio network
AFIPS '75 Proceedings of the May 19-22, 1975, national computer conference and exposition
Random access techniques for data transmission over packet-switched radio channels
AFIPS '75 Proceedings of the May 19-22, 1975, national computer conference and exposition
Flexible access for a space communications network with IP functionality
Computer Networks: The International Journal of Computer and Telecommunications Networking
A protocol for efficient transfer of data over fiber/cable systems
INFOCOM'96 Proceedings of the Fifteenth annual joint conference of the IEEE computer and communications societies conference on The conference on computer communications - Volume 2
Efficient delivery of frequent small data for U-healthcare applications over LTE-advanced networks
Proceedings of the 2nd ACM international workshop on Pervasive Wireless Healthcare
Computer Networks: The International Journal of Computer and Telecommunications Networking
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If one projects the growth of computer communication networks like the ARPANET to a worldwide situation, satellite communication is attractive for intercommunicating between the widespread geographic areas. For this variable demand, multi-station, data traffic situation, satellites are uniquely qualified in that they are theoretically capable of statistically averaging the load in total at the satellite rather than requiring each station or station-pair to average the traffic independently. However, very little research has been done on techniques which permit direct multi-station demand access to a satellite for data traffic. For voice traffic statistics, COMSAT Laboratories has developed highly efficient techniques; the SPADE system currently installed in the Atlantic permitting the pooled use of 64KB PCM voice channels on a demand basis, and the MAT-1 TDMA (Time Division Multiple-Access) experimental system. Both systems permit flexible demand assignment of the satellite capacity, but on a circuit-switched basis designed to interconnect a full duplex 64KB channel between two stations for minutes rather than deliver small blocks of data here and there. This work forms the technical base for advanced digital satellite communication, and provides a very effective means for moving large quantities of data between two points. However, for short interactive data traffic between many stations, new allocation techniques are desirable.