Method and apparatus for reducing handoff errors in a cellular radio telephone communications system

US 4,718,081 A
Filed: 11/13/1986
Issued: 01/05/1988
Est. Priority Date: 11/13/1986
Status: Expired due to Term

First Claim

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1. In a cellular radio communications system of the type including plural stationary radio frequency receivers serving corresponding plural geographical cells, a mobile radio frequency communications apparatus including:

radio frequency transmitting means for transmitting radio frequency signals to said plural stationary receivers; and

control means, connected to and controlled by said transmitting means and operatively connected to said plural stationary receivers, for controlling said transmitting means to transmit radio signals to a stationary receiver selected in response to a value calculated from (a) the amplitude of a radio frequency signal transmitted by said transmitting means and received by said selected stationary receiver, and (b) the amplitude of said transmitted radio frequency signal received by at least one further stationary receiver serving a geographical cell in proximity to the geographical cell served by said selected stationary receiver.

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Abstract

Wrong handoffs in a cellular radio telephone RF communications system can be minimized or eliminated without increasing locating receiver equipment requirements, field strength measurement time or system response time. Field strength measurements are made at handoff candidate cells and also at cells neighboring (geographically proximate to) those candidate cells. A weighted average of the measured field strength of the candidate cell and the field strength measured in cells neighboring the candidate cell is calculated for each candidate cell (the field strengths measured by neighboring cells may be multiplied by a weighting factor of 0.5). The weighted averages for the candidate cells are compared, and the candidate cell corresponding to the highest average is selected to handle the mobile transceiver call. Statistical analysis shows that this technique for determining handoff candidates significantly reduces the probability that a call will be handed off to a cell which is geographically distant from the mobile transceiver--even in the presence of propagation anomalies.

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22 Claims

1. In a cellular radio communications system of the type including plural stationary radio frequency receivers serving corresponding plural geographical cells, a mobile radio frequency communications apparatus including:
- radio frequency transmitting means for transmitting radio frequency signals to said plural stationary receivers; and
  
  control means, connected to and controlled by said transmitting means and operatively connected to said plural stationary receivers, for controlling said transmitting means to transmit radio signals to a stationary receiver selected in response to a value calculated from (a) the amplitude of a radio frequency signal transmitted by said transmitting means and received by said selected stationary receiver, and (b) the amplitude of said transmitted radio frequency signal received by at least one further stationary receiver serving a geographical cell in proximity to the geographical cell served by said selected stationary receiver.

2. In a cellular radio communications system of the type including:
- plural stationary radio transceivers disposed at corresponding associated plural geographical locations, different stationary transceivers transmitting and receiving radio frequency signals on different radio frequency communication channels corresponding thereto, each stationary transceiver including locating receiver means for receiving radio frequency signals transmitted on any selected one of said different radio frequency communication channels and for measuring the signal strength of said received signals, andcentral control means, connected to control said plural stationary transceivers and also connected to receive said signal strength measurements, for communicating signals reporting said measured signal strengths to mobile radio transceivers via at least one stationary transceiver,the improvement comprising a mobile radio communications device including;
  
  tunable radio frequency transmitting means for transmitting radio signals over a selected radio frequency communications channel;
  
  tunable radio frequency receiving means for receiving radio signals communicated thereto by said central control means via a stationary transceiver; and
  
  control means, connected to control said transmitting means, for selecting said radio frequency communications channel in response to the weighted average of the signal strength measured by the stationary transceiver corresponding to said selected channel and the signal strength measured by at least one further stationary transceiver located in proximity to the stationary transceiver corresponding to said selected channel.

3. In a cellular radio communications system of the type including plural stationary radio receivers serving corresponding plural geographical cells, a mobile radio communications apparatus including:
- tunable radio frequency transmitting means for transmitting radio signals to said plural stationary receivers;
  
  tuning means connected to said transmitting means for tuning said transmitting means to transmit radio signals on a selected radio frequency communications channel; and
  
  control means, connected to said tuning means and operatively connected to said plural stationary receivers, for controlling said tuning means to tune said transmitting means to transmit radio signals to a stationary receiver selected in response to the weighted average of the amplitude of said transmitted radio signal received by said selected stationary receiver and the amplitude of said transmitted radio signal received by at least one further stationary receiver serving a geographical cell in proximity to the geographical cell served by said selected stationary receiver.

4. In a cellular radio communications system of the type including plural stationary radio transceivers serving corresponding plural overlapping geographical cells, said plural stationary transceivers transmitting radio signals to and receiving radio signals transmitted by mobile radio transceivers located within said cells, a first of said plural stationary transceivers including:
- locating receiver means for receiving radio signals transmitted by a mobile radio transceiver and for producing a signal indicating the amplitude of said received radio signals; and
  
  digital signal processing means, connected to receive said indicating signal and also operatively connected to others of said plural stationary receivers, said processing means being preprogrammed to perform the following functions;
  
  (a) compute the weighted average of (1) the amplitude-indicating signal produced by said first stationary transceiver locating receiver, and (2) amplitude-indicating signals produced by further stationary transceiver locating receivers associated with geographical cells overlapping the geographical cell served by said first stationary transceiver,(b) compare the level of said weighted average with a predetermined level, and(c) control said first stationary transceiver to transmit radio signals to and receive radio signals from said mobile transceiver if said comparison reveals the level of said weighted average exceeds said predetermined level.

5. In a cellular radio communications system of the type including:
- plural stationary radio transceivers disposed at corresponding associated plural geographical locations, different stationary transceivers transmitting and receiving radio frequency signals on different corresponding radio frequency communication channels, each stationary transceiver including locating receiver means for receiving radio frequency signals transmitted on any selected one of said different radio frequency communication channels and for producing an indication of the signal strength of said received signals, andat least one mobile radio transceiver including tunable radio frequency transmitting means for transmitting radio signals over a selected radio frequency communications channel, said mobile transceiver also including control signal receiving means for receiving control signals and for selecting said communications channel in response to said control signals,the improvement comprising;
  
  central control means, connected to receive said received signal strength indications, for calculating a value from;
  
  (a) the signal strength a radio signal transmitted by said mobile transceiver transmitting means is received at the selected stationary transceiver, and (b) the signal strength said transmitted radio signal is received by at least one further stationary transceiver located in proximity to the selected stationary transceiver, for selecting a stationary transceiver to communicate with said mobile transceiver in response to said calculated value, and for controlling at least one stationary transceiver to transmit control signals to said mobile transceiver control signal receiving means so as to control said mobile transceiver transmitting means to tune to the communications channel corresponding to said selected stationary transceiver.
- View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13)
- - 6. A system as in claim 5 wherein said central control means includes a digital signal processor operatively connected to said plural stationary transceivers and preprogrammed so as to perform the following functions:
    - (a) control the locating receiver means of a first stationary transceiver to measure the amplitude of a signal transmitted by said mobile transceiver transmitting means;
      
      (b) control the locating receiver means of a further stationary transceiver located in proximity to the first stationary transceiver to measure the amplitude of said transmitted radio signal;
      
      (c) calculate a sum of;
      
      (1) the signal strength said radio signal transmitted by said mobile transceiver transmitting means is received by the first stationary transceiver locating receiving means, and (2) the signal strength said transmitted radio signal is received by the locating receiver means of said further stationary transceiver so as to yield a sum corresponding to said first stationary transceiver;
      
      (d) test the magnitude of the calculated sum; and
      
      (e) if said test reveals said magnitude exceeds a predetermined level, direct said mobile transceiver transmitting means to tune to a communications channel corresponding to said first stationary transceiver.
  - 7. A system as in claim 5 wherein said central control means includes a digital signal processor operatively connected to said plural stationary transceivers and preprogrammed so as to perform the following functions:
    - (a) control the receiving means of each stationary transceiver to measure the amplitude of a radio signal transmitted by said mobile transceiver transmitting means;
      
      (b) multiply a predetermined weighting factor by the signal strength said transmitted radio signals are received by the locating receiver means of at least one further stationary transceiver located in proximity to said first stationary transceiver to yield a product;
      
      (c) add the signal strength radio signals transmitted by said mobile transceiver transmitting means are received by said first stationary transceiver receiving means to the product to yield a sum corresponding to said first stationary transceiver;
      
      (d) perform said functions (b) and (c) for each of said stationary transceivers;
      
      (e) select the stationary transceiver corresponding to the calculated sum with the highest magnitude; and
      
      (f) direct said mobile transceiver transmitting means to tune to a communications channel corresponding to said selected stationary transceiver.
  - 8. A system as in claim 7 wherein said predetermined weighting factor is less than one.
  - 9. A system as in claim 7 wherein said predetermined weighting factor is substantially equal to 0.5.
  - 10. A system as in claim 7 wherein said predetermined weighting factor is within the range of 0.2 and 0.6.
  - 11. A system as in claim 7 wherein said stationary transceivers have different weighting factors associated therewith.
  - 12. A system as in claim 5 wherein said central control means includes a digital signal processor operatively connected to said plural stationary transceivers and preprogrammed so as to perform the following functions:
    - (a) select a subset of said stationary transceivers;
      
      (b) control the receiving means of each stationary transceiver in said subset to measure the amplitude of a radio signal transmitted by said mobile transceiver transmitting means;
      
      (c) receive the signal strength indicating signals produced by said stationary transceiver locating receiver means;
      
      (d) calculate, for each stationary transceiver in said subset, a corresponding sum of the signal strength radio signals transmitted by said mobile transceiver transmitting means are received by the stationary transceiver locating receiver means and the signal strength said transmitted radio signals are received by the locating receiver means of at least one further stationary transceiver, not necessarily within said subset but located in proximity to the stationary transceiver corresponding to said sum, so as to yield a sum corresponding to each of said stationary transceivers in said subset;
      
      (e) select the stationary transceiver corresponding to the calculated sum with the highest magnitude; and
      
      (f) direct said mobile transceiver transmitting means to tune to a communications channel corresponding to said selected stationary transceiver.
  - 13. A system as in claim 5 wherein:
    - said mobile transceiver transmitting means transmits radio signals over a communications channel corresponding to a serving stationary transceiver, andsaid central control means includes a digital signal processor operatively connected to said plural stationary transceivers and preprogrammed so as to perform the following functions;
      
      (a) determine the set of stationary transceivers which are geographically proximate to said serving stationary transceiver;
      
      (b) control the locating receiver means of each stationary transceiver in said set to measure the amplitude of a radio signal transmitted by said mobile transceiver transmitting means;
      
      (c) receive the signal strength indicating signals produced by said plural stationary transceiver locating receiver means;
      
      (d) calculate, for each stationary transceiver in said set, a corresponding sum of the signal strength said radio signal transmitted by said mobile transceiver transmitting means is received by the stationary transceiver locating receiver means and the signal strength said transmitted radio signal is received by the locating receiver means of at least one further stationarY transceiver, not necessarily within said set but located in proximity to the stationary transceiver corresponding to said sum, so as to yield a sum corresponding to each of said stationary transceivers in said subset;
      
      (e) select the stationary transceiver corresponding to the calculated sum with the highest magnitude; and
      
      (f) direct said mobile transceiver transmitting means to tune to the communications channel corresponding to said selected stationary transceiver.

14. In a cellular radio communications system of the type including plural stationary radio transceivers T₁ -T_N serving corresponding plural overlapping geographical cells C₁ -C_N and transmitting radio signals to and receiving radio signals transmitted by mobile radio transceivers located within said cells, each stationary transceiver having a locating receiver associated therewith, which receives radio signals transmitted by a selected mobile radio transceiver and produces signals indicating the amplitude of said received mobile radio transceiver radio signals, an improved central controller digital signal processor connected to control said plural stationary transceivers and to receive said amplitude indicating signals, said processor being preprogrammed to perform the following steps:
- (1) determine the stationary transceivers which serve cells overlapping the cell C₁ served by a first stationary transceiver T₁ ;
  
  (2) multiply the levels of amplitude-indicating signals produced by locating receivers associated with said determined stationary transceivers by a weighting factor n less than one;
  
  (3) add said multiplied levels to the level of the amplitude-indicating signal produced by the locating receiver associated with said first stationary transceiver T₁ to produce a sum;
  
  (4) divide said sum by 1+ the product of n and the number of determined stationary transceivers to yield a value V₁ associated with said transceiver T₁ ;
  
  (5) repeat said functions (1)-(4) for each of said plural stationary transceivers T₂ -T_N to yield corresponding values V₂ -V_N associated with said transceivers T₂ -T_N ;
  
  (6) select the largest of said values V₁ -V_N ; and
  
  (7) control the stationary transceiver associated with said selected value to transmit signals to and receive signals from said selected mobile transceiver.
- View Dependent Claims (15, 16, 17, 18)
- - 15. A system as in claim 14 wherein said weighting factor n is less than one.
  - 16. A system as in claim 14 wherein said weighting factor is within the range of 0.2 to 0.6.
  - 17. A system as in claim 14 wherein said weighting factor is substantially equal to 0.5.
  - 18. A system as in claim 14 wherein each of said cells C₁ -C_N overlap a further geographical cell said selected mobile transceiver was previously within.

19. In a cellular radio telecommunications system of the type including plural stationary radio signal transceivers serving corresponding geographical areas, said system further including a mobile radio transceiver communicating radio signals with one of said plural stationary transceivers, an improved method of selecting a stationary transceiver to communicate radio signals with said mobile radio transceiver comprising the steps of:
- (1) transmitting a radio signal from said mobile radio transceiver;
  
  (2) receiving the signal transmitted by said mobile transceiver at each of said plural stationary transceivers;
  
  (3) producing, at each stationary transceiver, a signal indicating the amplitude of said received signal;
  
  (4) modifying the indicating signal produced by a first of said plural stationary transceivers serving a first geographical area in response to the indicating signals produced by stationary transceivers serving geographical areas nearby said first area;
  
  (5) testing the level of said modified indicating signal; and
  
  (6) selecting said first stationary transceiver to communicate radio signals with said mobile radio transceiver if said testing step reveals the level of said modified signal exceeds a predetermined level.

20. In a cellular radio telephone communications system of the type including plural geographically-separated stationary radio transceivers serving corresponding plural discrete, overlapping geographical areas, a method of selecting one of said stationary transceivers for communicating radio signals with a mobile radio transceiver comprising the steps of:
- (1) transmitting a radio signal from said mobile radio transceiver;
  
  (2) receiving the radio signal transmitted by said mobile transceiver with each of said plural stationary transceivers;
  
  (3) determining the amplitude level said radio signal is received at a first stationary transceiver serving a first geographical area;
  
  (4) modifying the received amplitude level corresponding to said first stationary transceiver, in response to the received amplitude level corresponding to a further stationary transceiver serving a geographical area overlapping said first area;
  
  (5) testing said modified received amplitude level; and
  
  (6) selecting said first stationary transceiver to communicate radio signals with said mobile radio transceiver if said testing step reveals said modified determined amplitude level exceeds a predetermined threshold.
- View Dependent Claims (21, 22)
- - 21. A method as in claim 20 wherein:
    - said method further includes the steps of;
      
      (a) determining the amplitude level said radio signal is received at said further stationary transceiver, and(b) modifying said amplitude level corresponding to said further stationary transceiver in response to said received amplitude level corresponding to said first stationary transceiver;
      
      wherein said testing step (5) comprises comparing said modified first stationary transceiver received amplitude level with said modified further stationary transceiver received amplitude level; and
      
      wherein said selecting step (6) comprises selecting the stationary transceiver corresponding to the highest level compared by said comparing step.
  - 22. A method as in claim 20 wherein said modifying step (4) includes:
    - (a) multiplying said further stationary transceiver received amplitude level by a weighting factor less than one to yield a product; and
      
      (b) adding said product to said first stationary transceiver received amplitude level.

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Current Assignee
Telefonaktiebolaget LM Ericsson
Original Assignee
General Electric Company
Inventors
Brenig, Theodore
Primary Examiner(s)
NOT, DEFINED

Application Number

US06/929,859
Time in Patent Office

418 Days
Field of Search

455/33, 455/52, 455/56, 379/60, 379/63, 379/59
US Class Current

455/438
CPC Class Codes

H04W 36/30 by measured or perceived co...

H04W 36/302 due to low signal strength

Method and apparatus for reducing handoff errors in a cellular radio telephone communications system

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

199 Citations

22 Claims

Specification

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Method and apparatus for reducing handoff errors in a cellular radio telephone communications system

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

199 Citations

22 Claims

Specification

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