Adaptive data rate control for narrowcast networks

US 9,462,503 B2
Filed: 10/11/2012
Issued: 10/04/2016
Est. Priority Date: 08/16/1999
Status: Expired due to Term

First Claim

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1. A satellite communication network system comprising:

a user terminal for receiving a downlink signal from a gateway via a satellite comprising;

a demodulator unit configured to;

receive a first data packet contained within the downlink signal having an address for the user terminal;

demodulate the first data packet using a first modulation and coding for the first data packet; and

derive signal information associated with the downlink signal;

a frame decoder unit communicatively coupled to the demodulator unit and configured to decode the first data packet received from the demodulator unit; and

a signal quality calculation unit communicatively coupled to the demodulator unit and configured to;

receive the signal information associated with the downlink signal from the demodulator unit;

determine a carrier-to-noise ratio using the signal information;

determine an at least one signal quality-of-reception parameter using the carrier-to-noise ratio; and

transmit the at least one signal quality-of-reception parameter to the gateway using a return-channel for at least adjusting a modulation and coding used by the gateway for a plurality of consecutive data packets destined for the user terminal; and

the gateway for communicating with the user terminal from a plurality of user terminals via the satellite, the gateway comprising;

a control unit configured to;

receive the at least one signal quality-of-reception parameter for the downlink signal from the user terminal over the return-channel;

determine downlink signal attributes for the user terminal based on the at least one signal quality-of-reception parameter for the downlink signal received from the user terminal; and

generate a control signal for assignment of a second data packet destined for the user terminal from the plurality of user terminals to at least one attribute from the downlink signal attributes for the user terminal;

a router communicatively coupled to the control unit and configured to;

receive the second data packet destined for the user terminal, the second data packet having the address of the user terminal;

receive the control signal from the control unit for assignment of the second data packet to the at least one attribute from the downlink signal attributes; and

route the second data packet for assignment to the at least one attribute based on the destination user terminal for the second data packet and the control signal received from the control unit; and

a modulator communicatively coupled to the router and the control unit and configured to;

receive the second data packet from the router destined for the user terminal;

determine a second modulation and coding for the second data packet based on the control signal generated by the control unit for the user terminal using the downlink signal attributes, wherein the at least one attribute of the downlink signal attributes is a modulation and coding attribute; and

apply the second modulation and coding to the second data packet for the user terminal.

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Abstract

A system to provide narrowcast communications uses adaptive data rate control to individual subscribers such that the effects of precipitation or other link conditions, which are not common to all subscribers, is mitigated. The invention takes advantage of the fact that the narrowcast data consist of packets which are individually addressed to specific subscribers, or groups of subscribers. The narrowcast data is communicated on a plurality of channels, each of potentially differing data rates. The subscribers are assigned a particular channel, based upon their link quality, to receive packets addressed to them. The lower data rate channel will be less affected by adverse link conditions and are hence assigned to subscribers most likely to incur adverse link conditions.

Citations

20 Claims

1. A satellite communication network system comprising:
- a user terminal for receiving a downlink signal from a gateway via a satellite comprising;
  
  a demodulator unit configured to;
  
  receive a first data packet contained within the downlink signal having an address for the user terminal;
  
  demodulate the first data packet using a first modulation and coding for the first data packet; and
  
  derive signal information associated with the downlink signal;
  
  a frame decoder unit communicatively coupled to the demodulator unit and configured to decode the first data packet received from the demodulator unit; and
  
  a signal quality calculation unit communicatively coupled to the demodulator unit and configured to;
  
  receive the signal information associated with the downlink signal from the demodulator unit;
  
  determine a carrier-to-noise ratio using the signal information;
  
  determine an at least one signal quality-of-reception parameter using the carrier-to-noise ratio; and
  
  transmit the at least one signal quality-of-reception parameter to the gateway using a return-channel for at least adjusting a modulation and coding used by the gateway for a plurality of consecutive data packets destined for the user terminal; and
  
  the gateway for communicating with the user terminal from a plurality of user terminals via the satellite, the gateway comprising;
  
  a control unit configured to;
  
  receive the at least one signal quality-of-reception parameter for the downlink signal from the user terminal over the return-channel;
  
  determine downlink signal attributes for the user terminal based on the at least one signal quality-of-reception parameter for the downlink signal received from the user terminal; and
  
  generate a control signal for assignment of a second data packet destined for the user terminal from the plurality of user terminals to at least one attribute from the downlink signal attributes for the user terminal;
  
  a router communicatively coupled to the control unit and configured to;
  
  receive the second data packet destined for the user terminal, the second data packet having the address of the user terminal;
  
  receive the control signal from the control unit for assignment of the second data packet to the at least one attribute from the downlink signal attributes; and
  
  route the second data packet for assignment to the at least one attribute based on the destination user terminal for the second data packet and the control signal received from the control unit; and
  
  a modulator communicatively coupled to the router and the control unit and configured to;
  
  receive the second data packet from the router destined for the user terminal;
  
  determine a second modulation and coding for the second data packet based on the control signal generated by the control unit for the user terminal using the downlink signal attributes, wherein the at least one attribute of the downlink signal attributes is a modulation and coding attribute; and
  
  apply the second modulation and coding to the second data packet for the user terminal.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The satellite communication network system of claim 1, wherein the downlink signal is one or more of a frequency-division multiplexed (FDM) channel, a time-division multiplexed (TDM) channel or a code division multiplexed (CDM) channel.
  - 3. The satellite communication network system of claim 1, further comprising transmitting control information for demodulating at least the second data packet from the gateway to the user terminal, wherein the control information is time-division multiplexed with one or more data packets.
  - 4. The satellite communication network system of claim 1, wherein the at least one signal quality-of-reception parameter is received at the gateway via a satellite return-channel.
  - 5. The satellite communication network system of claim 1, wherein an at least one of a bandwidth, a power level, a coding scheme, a modulation scheme, or a data rate of the downlink signal is varied in response to changes in the at least one signal quality-of-reception parameter.

6. A method for communicating with a user terminal from a plurality of user terminals via a satellite, the method comprising:
- receiving at least one signal quality-of-reception parameter for a downlink signal from a user terminal from the plurality of user terminals over a return-channel, wherein the at least one signal quality-of-reception parameter is at least based on a carrier-to-noise ratio measured by the user terminal for the downlink signal;
  
  determining downlink signal attributes for the user terminal based on the at least one signal quality-of-reception parameter for the downlink signal received by the user terminal;
  
  receiving data packets destined for the user terminal from the plurality of user terminals, the data packets having an address of the user terminal;
  
  assigning of the data packets destined for the user terminal from the plurality of user terminals to at least one attribute from the downlink signal attributes for the user terminal;
  
  determining a modulation and coding for the data packets for the user terminal based on the downlink signal attributes; and
  
  applying the modulation and coding to the data packets for the user terminal.
- View Dependent Claims (7, 8, 9, 10, 11, 12)
- - 7. The method of claim 6, wherein the downlink signal attributes further comprises at least one of a bandwidth, a power level, or a data rate and is varied in response to changes in the at least one signal quality-of-reception parameter.
  - 8. The method of claim 6, wherein the downlink signal is one or more of a frequency-division multiplexed (FDM) channel, a time-division multiplexed (TDM) channel or a code division multiplexed (CDM) channel.
  - 9. The method of claim 6, further comprising transmitting control information for demodulating the data packets to the user terminal.
  - 10. The method of claim 9, wherein the control information is time-division multiplexed with the data packets.
  - 11. The method of claim 6, wherein the at least one signal quality-of-reception parameter is received via a satellite return-channel.
  - 12. The method of claim 6, wherein the at least one signal quality-of-reception parameter is received via a terrestrial return-channel.

13. A method for communicating with a gateway via a satellite, the method comprising:
- receiving a data packet contained within a downlink signal from the gateway having an address for the user terminal;
  
  demodulating the data packet using a modulation and coding for the data packet;
  
  decoding the data packet;
  
  deriving a first signal information associated with the downlink signal using information derived from demodulating the data packet;
  
  determining a carrier-to-noise ratio using the first signal information;
  
  determining an at least one signal quality-of-reception parameter using the carrier-to-noise ratio; and
  
  transmitting the at least one signal quality-of-reception parameter to the gateway using a return-channel, wherein the at least one signal quality-of-reception parameter is used by the gateway for at least adjusting a modulation and coding for a plurality of consecutive data packets destined for the user terminal.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
- - 14. The method of claim 13, wherein the determining the at least one signal quality-of-reception parameter further comprises using a second signal information associated with the downlink signal, wherein the second signal information is derived using the decoded data packet.
  - 15. The method of claim 13, wherein the carrier-to-noise ratio is determined using bit error correction statistics.
  - 16. The method of claim 13, wherein the downlink signal is one or more of a frequency-division multiplexed (FDM) channel, a time-division multiplexed (TDM) channel or a code division multiplexed (CDM) channel.
  - 17. The method of claim 13, further comprising receiving control information for demodulating data packets addressed to the user terminal.
  - 18. The method of claim 17, wherein the control information is time-division multiplexed with data packets in the downlink signal.
  - 19. The method of claim 13, wherein the at least one signal quality-of-reception parameter is sent to the gateway via a satellite return-channel.
  - 20. The method of claim 13, wherein the at least one signal quality-of-reception parameter is sent to the gateway via a terrestrial return-channel.

Specification

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Current Assignee
ViaSat Incorporated
Original Assignee
ViaSat Incorporated
Inventors
Miller, Mark J., Dankberg, Mark D.
Primary Examiner(s)
Mesfin, Yemane
Assistant Examiner(s)
Banthrongsack, Jeff

Application Number

US13/649,772
Publication Number

US 20130136010A1
Time in Patent Office

1,454 Days
Field of Search

None
US Class Current

1/1
CPC Class Codes

H04B 7/18523   Satellite systems for provi...

H04L 1/0005   applied to payload information

H04L 1/0011   applied to payload information

H04L 5/0005   Time-frequency

H04L 5/0016   Time-frequency-code

H04L 5/22   using time-division multipl...

H04W 28/0236   radio quality, e.g. interfe...

H04W 52/146   Uplink power control

H04W 52/242   taking into account path loss

Adaptive data rate control for narrowcast networks

First Claim

3 Assignments

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Abstract

Citations

20 Claims

Specification

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Adaptive data rate control for narrowcast networks

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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