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On-board processing for future satellite communications systems: Satellite-Routed FDMA (1981)

Berk, G. ; Jean, P. N. ; Hoffman, M. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A frequency division multiple access (FDMA) 30/20 GHz satellite communications architecture without on-board baseband processing is investigated. Conceptual system designs are suggested for domestic traffic models totaling 4 Gb/s of customer premises service (CPS) traffic and 6 Gb/s of trunking traffic. Emphasis is given to the CPS portion of the system which includes thousands of earth terminals with digital traffic ranging from a single 64 kb/s voice channel to hundreds of channels of voice, data, and video with an aggregate data rate of 33 Mb/s. A unique regional design concept that effectively smooths the non-uniform traffic distribution and greatly simplifies the satellite design is employed. The satellite antenna system forms thirty-two 0.33 deg beam on both the uplinks and the downlinks in one design. In another design matched to a traffic model with more dispersed users, there are twenty-four 0.33 deg beams and twenty-one 0.7 deg beams. Detailed system design techniques show that a single satellite producing approximately 5 kW of dc power is capable of handling at least 75% of the postulated traffic. A detailed cost model of the ground segment and estimated system costs based on current information from manufacturers are presented.

Keywords: COMMUNICATIONS AND RADAR

Type: NASA-CR-165419 , NASA/LERC-C-49029-D , MTR-8311

Format: application/pdf

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Second year technical report on-board processing for future satellite communications systems (1980)

Brandon, W. T. ; White, B. E. ; Green, W. K. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Advanced baseband and microwave switching techniques for large domestic communications satellites operating in the 30/20 GHz frequency bands are discussed. The nominal baseband processor throughput is one million packets per second (1.6 Gb/s) from one thousand T1 carrier rate customer premises terminals. A frequency reuse factor of sixteen is assumed by using 16 spot antenna beams with the same 100 MHz bandwidth per beam and a modulation with a one b/s per Hz bandwidth efficiency. Eight of the beams are fixed on major metropolitan areas and eight are scanning beams which periodically cover the remainder of the U.S. under dynamic control. User signals are regenerated (demodulated/remodulated) and message packages are reformatted on board. Frequency division multiple access and time division multiplex are employed on the uplinks and downlinks, respectively, for terminals within the coverage area and dwell interval of a scanning beam. Link establishment and packet routing protocols are defined. Also described is a detailed design of a separate 100 x 100 microwave switch capable of handling nonregenerated signals occupying the remaining 2.4 GHz bandwidth with 60 dB of isolation, at an estimated weight and power consumption of approximately 400 kg and 100 W, respectively.

Keywords: COMMUNICATIONS AND RADAR

Type: NASA-CR-165155 , MTR-8164 , TR-2

Format: application/pdf

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3

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Application of advanced on-board processing concepts to future satellite communications systems (1979)

White, B. F. ; Ruddy, J. M. ; Kota, S. L. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: An initial definition of on-board processing requirements for an advanced satellite communications system to service domestic markets in the 1990's is presented. An exemplar system architecture with both RF on-board switching and demodulation/remodulation baseband processing was used to identify important issues related to system implementation, cost, and technology development.

Keywords: COMMUNICATIONS AND RADAR

Type: NASA-CR-159682 , MTR-3787-VOL-1

Format: application/pdf

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Implication of a color multibeam communications satellite in the 30/20 GHz bands (1982)

Hoffman, M.

In: Other Sources

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Publication Date: 2019-07-13

Description: In order to meet the need for increased communications capacity, NASA is conducting a program to develop technology and systems for a 30/20 GHz multibeam domestic U.S. satellite. One way to provide the required national interconnectivity is to permute and time share connections among the involved areas by means of a satellite-borne multiport microwave switch with a Time-Division Multiple Access (TDMA) system. In this connection, the question was analyzed whether a practical satellite message routing system can be developed using FDMA techniques. The total traffic (model A) was derived and used as an input specification for the satellite-routed FDMA study. Attention is given to beam isolations, color and regional systems, the level of service, and the color FDMA satellite. It is concluded that the FDMA system considered can handle substantially all the Customer Premises Service (CPS) and Trunking (TR) traffic in Model A. The (color) scheme completely satisfies the CPS and TR requirements of 23 cities.

Keywords: COMMUNICATIONS AND RADAR

Type: ICC ''82 - The digital revolution; International Conference on Communications; Jun 13, 1982 - Jun 17, 1982; Philadelphia, PA

Format: text

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5

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Crossbar switching requirements for future multibeam TDMA communications satellites (1980)

Hoffman, M.

In: Other Sources

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Publication Date: 2019-07-13

Description: Requirements for microwave switching in space, based on a frequency translating satellite are discussed. A 100 x 100 switch with a bandwidth of 2.5 GHz is considered for the more than 70 U.S. metropolitan areas with populations over half of a million. Switch architectures are outlined and switching devices, logic requirements, and reliability are described.

Keywords: COMMUNICATIONS AND RADAR

Type: AIAA PAPER 80-0523 , Communications Satellite Systems Conference; Apr 20, 1980 - Apr 24, 1980; Orlando, FL

Format: text

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