Mobile communication system and method employing frequency reuse within a geographical service area

US 4,144,496 A
Filed: 03/17/1976
Issued: 03/13/1979
Est. Priority Date: 03/17/1976
Status: Expired due to Term

First Claim

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1. In a mobile telephone communication system having a plurality of frequency communication channels assigned thereto, and a service area comprising both a service zone essentially centrally located therein and a plurality of remote mobile service zones, apparatus for providing service from the central zone to mobile units throughout the entire mobile telephone service area comprising:

a plurality of transmitters and receivers,a plurality of essentially co-located directional antennas within said central zone, each of said plurality of antennas being connected to at least one of said plurality of transmitters and receivers and each oriented to broadcast and receive wave energy in a different predetermined sector of the service area extending radially beyond said central zone, thereby creating the plurality of remote mobile service zones, andan omnidirectional antenna within said central zone, said antenna being connected to one of said plurality of transmitters and receivers to omnidirectionally broadcast and receive wave energy from said one of said plurality of transmitters and receivers within said central zone.

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Abstract

A communication method and system for providing two-way radio communication links between fixed stations and mobile units, particularly suitable for use in mobile telephone communications. A geographical service area is sectionalized through the use of omnidirectional and directional antennas resulting in increased call capacity for a given number of available communication channels. An orderly, cost-effective manner for accommodating service area expansion, a dynamic channel assignment technique for accommodating variations in user density and a technique for maintaining an established call as a mobile unit moves throughout the sectionalized service area are also disclosed.

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80 Claims

1. In a mobile telephone communication system having a plurality of frequency communication channels assigned thereto, and a service area comprising both a service zone essentially centrally located therein and a plurality of remote mobile service zones, apparatus for providing service from the central zone to mobile units throughout the entire mobile telephone service area comprising:
- a plurality of transmitters and receivers,a plurality of essentially co-located directional antennas within said central zone, each of said plurality of antennas being connected to at least one of said plurality of transmitters and receivers and each oriented to broadcast and receive wave energy in a different predetermined sector of the service area extending radially beyond said central zone, thereby creating the plurality of remote mobile service zones, andan omnidirectional antenna within said central zone, said antenna being connected to one of said plurality of transmitters and receivers to omnidirectionally broadcast and receive wave energy from said one of said plurality of transmitters and receivers within said central zone.
- View Dependent Claims (2, 3, 4, 5, 6, 10, 11, 12, 13, 14, 15)
- - 2. The apparatus of claim 1 including a plurality of satellite receivers remote from said central zone, each located centrally of one of said sectors of said service area.
  - 3. The apparatus of claim 1 wherein said sectors are defined by the directional characteristics of said directional antennas;
    - and, wherein immediately adjacent of said sectors overlap in area by an amount less than the area of any one of said sectors.
  - 4. The apparatus of claim 1 including a plurality of beacon transmitters radially remote from said central zone, at least one of said beacon transmitters being located approximately centrally of each of said sectors beyond said central zone and including means to omnidirectionally broadcast wave energy;
    - and,means associated with each of said beacon transmitters for modulating the wave energy broadcast thereby with a marker signal.
  - 5. The apparatus of claim 4 including a plurality of satellite receivers remote from said central zone, each of said satellite receivers being located centrally of one of said sectors of said service area.
  - 6. The apparatus of claim 5 wherein said sectors are defined by the directional characteristics of said directional antennas;
    - and,wherein immediately adjacent of said sectors overlap in area by an amount less than the area of any one of said sectors.
  - 10. The apparatus of claim 1 wherein said directional antennas are located centrally of said central zone, each directional antenna having a directional characteristic including an angular beamwidth defining one of said predetermined sectors of the service area, the sum of the angular beamwidths of said directional antennas being at least 360°
    - .
  - 11. The apparatus of claim 10 wherein adjacent of said directional antennas are oriented angularly relative to each other by an angle approximately equal to the sum of one-half of each angular beamwidth thereof.
  - 12. The apparatus of claim 10 wherein immediately adjacent of said sectors are served by different ones of the communication channels assigned to the system, the same communication channels serving at least some of the sectors spaced by at least one other sector whereby the same communication channel may be simultaneously used in more than one sector of the service area.
  - 13. The apparatus of claim 12 including a plurality of satellite receivers remote from said central zone, each located centrally of one of said sectors of said service area.
  - 14. The apparatus of claim 13 including a plurality of beacon transmitters radially remote from said central zone, at least one of said beacon transmitters being located approximately centrally of each of said sectors beyond said central zone and operable to omnidirectionally broadcast wave energy;
    - and,means associated with each of said beacon transmitters for modulating the wave energy broadcast thereby with a marker signal.
  - 15. The apparatus of claim 13 wherein the output power level of each of said transmitters connected to said directional antennas is selectively controllable, and further including:
    - means for generating an idle channel marker signal;
      
      means for generating a control signal; and
      
      ,circuit means for selectively applying said idle channel marker signal and said control signal to said transmitters connected to said directional antennas, said idle channel marker signal modulating said wave energy transmitted in said sectors and said control signal reducing the output power level of said transmitters from a first predetermined level to a second predetermined level during the modulation of said wave energy by said idle channel marker signal.

7. The apparatus of claim wherein the output power level of each of said transmitters connected to said directional antennas is selectively controllable, and further including:
- means for generating an idle channel marker signal;
  
  means for generating a control signal; and
  
  ,circuit means for selectively applying said idle channel marker signal and said control signal to said transmitters connected to said directional antennas, said idle channel marker signal modulating said wave energy transmitted in said sectors and said control signal reducing the output power level of said transmitters from a first predetermined level to a second predetermined level during the modulation of said wave energy by said idle channel marker signal.
- View Dependent Claims (8, 9)
- - 8. The apparatus of claim 7 including a plurality of satellite receivers remote from said central zone, each located centrally of one of said sectors of said service area.
  - 9. The apparatus of claim 8 wherein said sectors are defined by the directional characteristics of said directional antennas;
    - and,wherein immediately adjacent of said sectors overlap in area by an amount less than the area of any one of said sectors.

16. A mobile telephone system comprising:
- a plurality of directional antennas each oriented to transmit a wave energy carrier signal in a sector of a service area;
  
  a plurality of transmitters each connected to a different one of said plurality of directional antennas and each selectively controllable in output power level and frequency to broadcast a carrier signal at different frequencies in immediately adjacent sectors;
  
  means for generating an idle channel marker signal;
  
  means for generating a control signal; and
  
  ,circuit means for selectively applying said control signal and said idle channel marker signal to said plurality of transmitters, said idle channel marker signal modulating said carrier signal from each of said transmitters and said control signal controlling the output power level of said transmitters at a first predetermined level to a second predetermined level during the modulation of said carrier signals by said idle channel marker signal, said first predetermined level being substantially reduced relative to a second predetermined level normally employed for communicating after a call is established.
- View Dependent Claims (17, 18, 19)
- - 17. The system of claim 16 including a plurality of satellite receivers remote from said directional antennas, at least one of said satellite receivers being located centrally of each of said sectors of said service area served by said directional antennas in order to receive signals from mobile units operating in the sectors.
  - 18. The system of claim 16 wherein said directional antennas are located centrally of the service area, each directional antenna having a directional characteristic including an angular beamwidth defining one of said sectors of the service area, the sum of the angular beamwidths of said directional antennas being at least 360°
    - .
  - 19. The system of claim 18 including a plurality of satellite receivers radially remote from said directional antennas, at least one of said satellite receivers being located centrally of each of said sectors of said service area served by said directional antennas.

20. A mobile telephone system comprising:
- a plurality of transmitters;
  
  a plurality of essentially co-located directional antennas each connected to at least one of said plurality of transmitters and each oriented to broadcast wave energy from said transmitters in a different sector of a service area;
  
  a source of an idle channel marker signal; and
  
  ,a plurality of beacon transmitters, at least one of said beacon transmitters being positioned centrally with respect to each of said sectors of said service area, each of said beacon transmitters including means for omnidirectionally broadcasting wave energy modulated by said marker signal in the sector in which positioned.
- View Dependent Claims (21, 22, 23)
- - 21. The system of claim 20 including a plurality of satellite receivers remote from said directional antennas, at least one of said satellite receivers being located centrally of each of said sectors of said service area served by said directional antennas in order to receive signals from mobile units operating in the sectors.
  - 22. The system of claim 20 wherein said directional antennas are located centrally of the service area, each directional antenna having a directional characteristic including an angular beamwidth defining one of said sectors of the service area, the sum of the angular beamwidths of said directional antennas being at least 360°
    - .
  - 23. The system of claim 22 including a plurality of satellite receivers remote from said directional antennas, at least one of said satellite receivers being located centrally of each of said sectors of said service area served by said directional antennas in order to receive signals from mobile units operating in the sectors.

24. In a mobile telephone communication system, a system for providing broadcast coverage of a mobile telephone service area comprising:
- first, second and third base stations each including a plurality of transmitters, each of the base stations being spaced approximately equidistantly from each of the other base stations; and
  
  ,a plurality of directional antennas at each of said base stations, each directional antenna at each base station being connected to at least one of said plurality of transmitters directionally to broadcast wave energy in a sector of the service area, one of said plurality of directional antennas at each base station being operable to broadcast wave energy in substantially the same sector of the service area to thereby provide broadcast coverage of said same sector from each of said first, second and third base stations, the remaining ones of said plurality of directional antennas at each of the base stations being oriented to provide broadcast coverage of other sectors of the service area from each of said first, second and third base stations.
- View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39)
- - 25. The system of claim 24 including:
    - a fourth base station including a plurality of transmitters, said fourth base station being spaced approximately equidistantly from each of said first, second and third base stations and generally centrally of said same sector covered from each of said first, second and third base stations; and
      
      ,a plurality of directional antennas at said fourth base station each operatively associated with at least one of said plurality of transmitters to each broadcast wave energy in a sector of the service area, the directional antennas at said fourth base station being oriented to provide broadcast coverage of sectors surrounding said first, second and third base stations.
  - 26. The system of claim 25 including:
    - fifth, sixth and seventh base stations each including a plurality of transmitters and each being equidistantly spaced radially outwardly from said fourth base station and two of said first, second and third base stations,a plurality of directional antennas at each of said fifth, sixth and seventh base stations, each directional antenna at each of said fifth, sixth and seventh base stations being connected to at least one of said plurality of transmitters thereat to broadcast wave energy in a sector of the service area, one of said plurality of directional antennas at each of said fifth, sixth and seventh base stations being operable to broadcast wave energy in said same sector of the service area covered by said first, second and third base stations to thereby provide coverage of said same sector from each of said first, second, third, fifth, sixth and seventh base stations.
  - 27. The system of claim 26 including:
    - a marker beacon transmitter located generally centrally of said same sector of the service area covered from said first, second, third, fifth, sixth and seventh base stations, said marker beacon transmitter including means to omnidirectionally broadcast wave energy in said same sector at a selected one of a plurality of predetermined frequencies; and
      
      ,means for modulating the wave energy broadcast by said marker beacon transmitter with a marker signal.
  - 28. The system of claim 27 including a plurality of satellite receivers located generally centrally of said same sector for receiving transmissions from mobile telephones in said same sector.
  - 29. The system of claim 28 including a central control unit connected to each of said base stations, said satellite receivers, said marker beacon transmitter and to a wire line telephone system for selectively controlling the broadcast of wave energy by said base stations and marker beacon transmitter and for selectively connecting said satellite receivers and said transmitters at said base stations to said wire line telephone system.
  - 30. The system of claim 24 wherein said same sector of the service area is covered from each of said first, second and third base stations at different frequencies whereby at least three transmitters each at a different base station can simultaneously broadcast in said same sector.
  - 31. The system of claim 30 including:
    - a fourth base station including a plurality of transmitters, said fourth base station being spaced approximately equidistantly from each of said first, second and third base stations and generally centrally of said same sector covered from each of said first, second and third base stations; and
      
      ,a plurality of directional antennas at said fourth base station each connected to at least one of said plurality of transmitters to each broadcast wave energy in a sector of the service area, the directional antennas at said fourth base station being oriented to provide broadcast coverage of sectors surrounding said first, second and third base stations.
  - 32. The system of claim 31 including:
    - fifth, sixth and seventh base stations each including a plurality of transmitters and each being equidistantly spaced radially outwardly from said fourth base station and two of said first, second and third base stations,a plurality of directional antennas at each of said fifth, sixth and seventh base stations, each directional antenna at each of said fifth, sixth and seventh base stations being connected to at least one of said plurality of transmitters thereat to broadcast wave energy in a sector of the service area, one of said plurality of directional antennas at each of said fifth, sixth and seventh base stations broadcasting wave energy in said same sector of the service area covered by said first, second and third base stations, said wave energy being broadcast by said fifth, sixth and seventh base stations in said same sector at frequencies differing from each other and from the frequencies of the wave energy broadcast from said first, second and third base stations to thereby provide coverage of said same sector from each of said first, second, third, fifth, sixth and seventh base stations at six different frequencies.
  - 33. The system of claim 24 including an omnidirectional antenna at each of said first, second and third base stations, each omnidirectional antenna being connected to at least one of said plurality of transmitters at said base stations to broadcast wave energy in a zone surrounding each base station and overlapping a portion of said same sector covered from each of said base stations.
  - 34. The system of claim 33 including:
    - a marker beacon transmitter located generally centrally of said same sector of the service area covered from said first, second and third base stations, said marker beacon transmitter including means to omnidirectionally broadcast wave energy in said same sector at a selected one of a plurality of predetermined frequencies; and
      
      ,means for modulating the wave energy broadcast by said marker beacon transmitter with a marker signal.
  - 35. The system of claim 34 including a plurality of satellite receivers located generally centrally of said same sector for receiving transmissions from mobile telephones in said same sector.
  - 36. The system of claim 35 including a central control unit connected to each of said base stations, said satellite receivers, said marker beacon transmitter and to a wire line telephone system for selectively controlling the broadcast of wave energy by said base stations and marker beacon transmitter and for selectively connecting said satellite receivers and said transmitters at said base stations to said wire line telephone system.
  - 37. The system of claim 24 including:
    - a marker beacon transmitter located generally centrally of said same sector of the service area covered from said first, second and third base stations, said marker beacon transmitter including means to omnidirectionally broadcast wave energy in said same sector at a selected one of a plurality of predetermined frequencies; and
      
      ,means for modulating the wave energy broadcast by said marker beacon transmitter with a marker signal.
  - 38. The system of claim 37 including a plurality of satellite receivers located generally centrally of said same sector for receiving transmissions from mobile telephones in said same sector.
  - 39. The system of claim 38 including a central control unit connected to each of said base stations, said satellite receivers, said marker beacon transmitter and to a wire line telephone system for selectively controlling the broadcast of wave energy by said base stations and marker beacon transmitter and for selectively connecting said satellite receivers and said transmitter at said base stations to said wire line telephone system.

40. Apparatus for providing boradcast service in a mobile communication system service area comprising:
- first means at a first location in the service area for omnidirectionally broadcasting wave energy in a zone smaller than the service area and surrounding said first location; and
  
  ,second means at said first location for directionally broadcasting wave energy in a plurality of sectors of the service area extending radially from said first location beyond a radially outward limit of said zone, said first and second means together providing broadcast service to at least a portion of the service area.
- View Dependent Claims (41, 42, 43, 44)
- - 41. The apparatus of claim 40 wherein said wave energy is omnidirectionally broadcast in said zone at a first frequency and said wave energy is directionally broadcast in said sectors at frequencies differing from said first frequency.
  - 42. The apparatus of claim 40 wherein said wave energy is directionally broadcast in adjacent of said sectors at differing frequencies and in at least some of said sectors at the same frequency.
  - 43. The apparatus of claim 42 wherein said wave energy is omnidirectionally broadcast in said zone at a first frequency and said wave energy is directionally broadcast in said sectors at frequencies differing from said first frequency.
  - 44. The apparatus of claim 40 including a plurality of satellite receivers remote from said central zone, each located centrally of one of said sectors of said service area to receive transmissions from mobile units in the respective ones of said sectors.

45. Apparatus for providing broadcast service in a mobile communication system service area comprising:
- first means at a first location in the service area for directionally broadcasting wave energy in a plurality of radially outwardly extending sectors of the service area;
  
  means for generating an idle channel marker signal; and
  
  ,means responsive to said generating means and spaced radially outwardly from said first location generally centrally of each of said sectors for omnidirectionally broadcasting said idle channel marker signal in each of said sectors, said first means, said generating means and said broadcasting means together providing broadcast service in the service area.
- View Dependent Claims (46, 47, 48, 49, 50)
- - 46. The apparatus of claim 45 wherein said wave energy is directionally broadcast in adjacent of said sectors at differing frequencies and in at least some of said sectors at the same frequency.
  - 47. The apparatus of claim 46 including a plurality of satellite receivers remote from said central zone, each located centrally one one of said sectors of said service area to receive transmissions from mobile units in the respective ones of said sectors.
  - 48. The apparatus of claim 45 including second means at said first location for omnidirectionally broadcasting wave energy in a zone surrounding said first location, said sectors extending beyond a radially outward limit of said zone.
  - 49. The apparatus of claim 48 wherein said wave energy is directionally broadcast in adjacent of said sectors at differing frequencies and in at least some of said sectors at the same frequency.
  - 50. The apparatus of claim 49 including a plurality of satellite receivers remote from said central zone, each located centrally of one of said sectors of said service area to receive transmissions from mobile units in the respective ones of said sectors.

51. A system for providing communications in a mobile telephone service area comprising:
- a plurality of directional antennas at a first location, each directional antenna defining a geographical sector of the service area extending radially outwardly from the first location;
  
  means including a plurality of transmitters, a plurality of receivers, and said directional antennas for defining plural two-way radio communication channels serving each of said sectors individually, at least some of the same radio communication channels serving more than one of said sectors,means for designating one of said plural two-way communication channels in each of said sectors as a mobile monitoring channel;
  
  a plurality of mobile units each including means for monitoring said designated plural two-way communication channels; and
  
  ,means connected to each of said communication channels defining means and to a wireline telephone system for selectively establishing communications between a mobile unit and either another mobile unit or a fixed telephone over one of said plural two-way radio communication channels serving the sector in which said mobile unit is monitoring a designated channel.
- View Dependent Claims (52, 53, 54, 55, 56, 57)
- - 52. The system of claim 51 wherein each directional antenna has a directional characteristic including an angular beamwidth defining one of said predetermined sectors of the service area, the sum of the angular beamwidths of said directional antennas being at least 360°
    - .
  - 53. The system of claim 52 wherein adjacent of said directional antennas are oriented angularly relative to each other by an angle approximately equal to the sum of one-half of each angular beamwidth thereof.
  - 54. The system of claim 52 wherein immediately adjacent of said sectors are served by different ones of the communication channels assigned to the system, the same communication channels serving at least some of the sectors spaced by at least one other sector whereby the same communication channel may be simultaneously used in more than one sector of the service area.
  - 55. The system of claim 51 including second means at said first location for omnidirectionally broadcasting wave energy in a zone surrounding said first location, said sectors extending beyond a radially outward limit of said zone.
  - 56. The system of claim 55 wherein said wave energy is directionally broadcast in adjacent of said sectors at differing frequencies and in at least some of said sectors at the same frequency.
  - 57. The system of claim 51 including a plurality of base stations spaced from said first location and each including means for directionally broadcasting wave energy in a plurality of radially outwardly extending sectors of the service area, the spacing between adjacent base stations and the orientation of said directional broadcasting means being such that wave energy is broadcast in at least some of said sectors from a plurality of said base stations.

58. A system for providing continuity of communications over a plurality of dual frequency communication channels comprising:
- a plurality of base stations spaced throughout a service area, each base station including an array of directional antennas directionally defining a plurality of sectors of the service area extending radially outwardly from said base stations;
  
  means for establishing a call between a fixed communication unit and a mobile communication unit over an available one of said dual frequency communication channels through one of said base stations,means connected to said array of directional antennas at said one of said base stations for monitoring the signal strength of transmissions from said mobile unit engaged in said established call received over a first one of said directional antennas defining a first one of said sectors designated as a home sector;
  
  means connected to said monitoring means for detecting a drop in monitored signal strength received over said first one of said directional antennas below a predetermined threshold;
  
  means connected to said directional antennas and responsive to said detecting means for monitoring and comparing the signal strength of said transmissions from said mobile unit engaged in said established call received over only three of said directional antennas defining three monitoring sectors, the three monitoring sectors being adjacent to and surrounding said first one of said sectors, two of said three directional antennas defining said three monitoring sectors being at said one of said base stations and the third of said three directional antennas being at another of said base stations; and
  
  ,means responsive to said comparing means for designating one of said three monitoring sectors as a new home sector.
- View Dependent Claims (59, 60)
- - 59. The system of claim 58 including means responsive to said designating means for reestablishing said established call through another of said plurality of base stations.
  - 60. The system of claim 59 wherein said established call is reestablished over the same one of said dual frequency communication channels.

61. A method for providing broadcast service in a mobile communication system service area comprising the steps of:
- omnidirectionally broadcasting wave energy in a zone surrounding a first location in the service area, said zone being smaller than the service area; and
  
  ,directionally broadcasting wave energy from said first location in a plurality of sectors of the service area extending radially from said first location beyond a radially outward limit of said zone.
- View Dependent Claims (62, 63, 64)
- - 62. The method of claim 61 wherein wave energy is omnidirectionally broadcast in said zone at a first frequency and wave energy is directionally broadcast in said sectors at frequencies differing from said first frequency.
  - 63. The method of claim 61 wherein wave energy is directionally broadcast in adjacent of said sectors at differing frequencies and in at least some of said sectors at the same frequency.
  - 64. The method of claim 63 wherein wave energy is omnidirectionally broadcast in said zone at a first frequency and wave energy is directionally broadcast in said sectors at frequencies differing from said first frequency.

65. A method for providing broadcast service in a mobile communication system service area comprising the steps of:
- directionally broadcasting wave energy from a first location in the service area in a plurality of radially outwardly extending sectors of the service area;
  
  generating an idle channel marker signal; and
  
  ,omnidirectionally broadcasting said idle channel marker signal in each of said sectors from locations spaced radially outwardly from said first location generally centrally of each of said sectors.
- View Dependent Claims (66, 67)
- - 66. The method of claim 65 wherein said wave energy is directionally broadcast in adjacent of said sectors at differing frequencies and in at least some of said sectors at the same frequency.
  - 67. The apparatus of claim 66 including the steps of receiving transmissions from mobile units in the respective ones of said sectors generally at said radially outwardly spaced locations.

68. A method for providing broadcast coverage of a mobile telephone service area comprising the steps of:
- providing first, second and third spaced base stations each including a plurality of transmitters;
  
  directionally broadcasting wave energy from each of said base stations in a plurality of sectors of the service are extending radially outwardly from said base stations, said wave energy being broadcast into at least some of said plurality of sectors from a plurality of said base stations.

69. A method for providing mobile telephone broadcast service comprising the steps of:
- directionally broadcasting wave energy into sectors of a service area from a plurality of directional antennas;
  
  generating an idle channel marker signal;
  
  modulating said wave energy broadcast into said sectors by said idle channel marker signal;
  
  reducing the output power level of said broadcast wave energy from a first predetermined level to a second predetermined level during the modulation of said wave energy by said idle channel marker signal.

70. In a mobile telephone communication system having a plurality of frequency communication channels assigned thereto, a service area including a plurality of mobile service sectors, and apparatus for providing service to mobile units throughout the entire mobile telephone service area, comprising:
- View Dependent Claims (72, 74, 76, 77, 78, 80)
- - 72. The mobile telephone system as defined in claim 70 in combination with an omnidirectional antenna serving to define a central zone, said omnidirectional antenna broadcasting frequencies different from either of the frequencies of assigned to said first and second alternate sectors.
  - 74. The mobile telephone system as defined in claim 72 in which a central processing unit is utilized in order to selectively connect incoming and outgoing calls between appropriate components of the system, and to perform adaptive channel assignment during mobile unit sector transfer.
  - 76. The apparatus of claim 74 including a plurality of satellite receivers remote from said central zone, each located centrally of one of said sectors of said service area.
  - 77. The apparatus of claim 74 wherein said sectors are defined by the directional characteristics of said directional antennas;
    - and,wherein immediately adjacent of said sectors overlap in area by an amount less than the area of any one of said sectors.
  - 78. The apparatus of claim 74 including a plurality of beacon transmitters radially remote from said central zone, at least one of said beacon transmitters being located approximately centrally of each of said sectors beyond said central zone and including means to omnidirectionally broadcast wave energy;
    - andmeans associated with each of said beacon transmitters for modulating the wave energy broadcast thereby with a marker signal.
  - 80. The method of claim 78 including the further steps of generating an idle channel marker signal and omnidirectionally broadcasting the idle channel marker signal in each of said sectors from locations spaced radially from the base station, the locations being generally central of each of the sectors.

71. a plurality of transmitters and receivers,a plurality of essentially co-located directional antennas at a given location, each of said plurality of antennas being connected to at least one of said plurality of transmitters and receivers and each oriented to broadcast as well as receive wave energy in a different predetermined sector of the service area extending radially beyond said given location, thereby creating a plurality of mobile service sectors.the frequencies broadcast from first alternate sectors created around said co-located directional antennas being different from the frequencies broadcast from the second alternate or intervening sectors of said antennas, with the latter sectors serving as buffers between the first alternate sectors, and thus permitting non-interfering reuse of frequencies within the entire service area.
- View Dependent Claims (73)
- - 73. The mobile telephone system as defined in claim 71 in which receiver voting equipment is utilized on the output of each receiver used in said system, said equipment being utilized for ascertaining the strongest signal for the purpose of transmitter/sector selection, as mobile units engaged in calls move from sector to sector.

75. In a mobile communication system having a plurality of dual frequency communication channels assigned thereto, apparatus for providing broadcast service from a central location to mobile unit throughout a mobile communication service area comprising:
- a plurality of transmitters at a central location;
  
  a plurality of essentially co-located directional atennas at the central locations; and
  
  ,means connecting each of said plurality of antennas to at least one of said plurality of tranmitters;
  
  a plurality of antennas being oriented to broadcast wave energy in predetermined respective sectors of the mobile telephone service area extending radially outwardly from the central location, so as to define a plurality of directionally separate broadcast sectors of the service area;
  
  said connected transmitters being tuned so as to broadcast wave energy in adjacent of said broadcast sectors at differing frequencies and to broadcast wave energy in at least some of the sectors at the same frequency, whereby different communication channels serve adjacent of said broadcast sectors and the same communication channel serves more than one of said broadcast sectors.

79. A method for providing broadcast service from a base station to mobile units throughout a mobile communication service area comprising the steps of broadcasting wave energy directionally from the base station into a plurality of sectors of the service area so as to define a plurality of directionally separate broadcast sectors of the service area, the sectors extending radially outwardly from the base station in different directions and the wave energy being broadcast in adjacent of the sectors at differing frequencies and being broadcast in at least some of the sectors at the same frequency.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Harris Corporation (L3Harris Technologies, Inc.)
Original Assignee
Harris Corporation (L3Harris Technologies, Inc.)
Inventors
Cunningham, Marion L., Freeman, Lionel D., Endicott, John R.
Primary Examiner(s)
Martin, John C.
Assistant Examiner(s)
Psitos, Aristotelis M.

Application Number

US05/667,782
Time in Patent Office

1,091 Days
Field of Search

325/53-55, 179/41 A, 179/2 EB
US Class Current

455/447
CPC Class Codes

H04B 7/2621   using frequency division mu...

H04W 16/02   Resource partitioning among...

H04W 16/06   Hybrid resource partitionin...

H04W 16/12   Fixed resource partitioning

H04W 16/24   Cell structures

Mobile communication system and method employing frequency reuse within a geographical service area

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Abstract

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80 Claims

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Mobile communication system and method employing frequency reuse within a geographical service area

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