CA2214781A1 - A subscriber unit for use in a multiple access communication system - Google Patents
A subscriber unit for use in a multiple access communication system Download PDFInfo
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- CA2214781A1 CA2214781A1 CA002214781A CA2214781A CA2214781A1 CA 2214781 A1 CA2214781 A1 CA 2214781A1 CA 002214781 A CA002214781 A CA 002214781A CA 2214781 A CA2214781 A CA 2214781A CA 2214781 A1 CA2214781 A1 CA 2214781A1
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- Prior art keywords
- subscriber
- dispatch
- group
- communication
- unit
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/24—Radio transmission systems, i.e. using radiation field for communication between two or more posts
- H04B7/26—Radio transmission systems, i.e. using radiation field for communication between two or more posts at least one of which is mobile
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/40—Circuits
- H04B1/401—Circuits for selecting or indicating operating mode
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/04—Large scale networks; Deep hierarchical networks
- H04W84/08—Trunked mobile radio systems
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
This invention discloses a mobile subscriber unit for use by a subscriber to a communication system, including a radio unit (12), including receiver means (114) for receiving communication signals, transmitting means (112) for transmitting communication signals, and input/output terminal (17), processor means (128) for processing the received and transmitted communication signals to provide communication services information through the input/output terminal; a subscriber terminal (14), including an input/output terminal (18) connected to the radio unit input/output terminal (17), display means (24) for providing information to the subscriber, keypad means (62) for entering information and controlling operation of the subscriber unit, processor means (50) for controlling display means and the keypad means and for processing the communication services information provided by the radio units.
Description
CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 A SUBSCRIBER UNIT FO~ USE IN A
MULTIPLE ACCESS COMMUNICATION S'~STEM
Backqround of the Invention The present invention relates to wireless communication systems.
More specifically, it relates to the subscriber units used in mobile wireless communication systems.
Current efforts in wireless communications, particularly in the segment of wireless communications referred to as Specialized Mobile Radio (SMR), have the goal of providing greater functionality to the SMR user, commonly known as a subscriber. These efforts have been limited by problems in the present SMR equipment. One equipment area where severe limitations exist is in the unit the subscriber uses to communicate, known as the subscriber unit.
The limitations include a problematic electronic architectural design that hinders the capabilities of the subscriber unit. As a result of this limitation, the subscriber units are unable to efficiently process the signals they communicate, including voice and data signals. Further, as a result of the problematic architecture, the subscriber units are unable to efficiently handle peripheral devices which may be necessary to efficiently process the communication signals received by the subscriber unit.
Current subscriber units are also limited in the features that they provide to their users, thereby causing inefficient use of communications resources. Many of these limitations exist in dispatch communication, CA 02214781 1997-09-0~
W 096/279~0 PCTrUS96/03188 wherein businesses that have field employees -- employees working outside the office environment -- communicate with one or more of those employees at a time. One problem commonly encountered is that the field employees often must leave their vehicles (where the subscriber units are mounted) in order to perform their jobs and thus are not always able to hear the dispatched information on their radio terminals. If the field employee is away from the vehicle when a message is dispatched, the employee wiil miss the dispatched message. Depending on the importance of the message, this can lead to unfortunate results. This is but one example of the problems with current subscriber units -- there are many others.
In view of these and other limitations, systems and methods for more efficiently processing dispatched communications, therefore, are needed.
Summarv of the Invention In accordance with the present invention, a new subscriber unit architecture is utilized. The mobile subscriber unit of the present invention includes two pieces of equipment, a radio unit and a subscriber terminal. In accordance with a preferred embodiment of the present invention, the radio unit is housed in the trunk of an automobile while the subscriber terminal is housed in the passenger compartment of the automobile.
The radio unit includes a receiver, a transmitter, an inputloutput terminal, and processing means. The radio unit processor means processes the received and transmitted communication signals to provide communication services information through the radio unit input!output CA 02214781 1997-09-0~
W O 96/279~0 PCTrUS96/03188 terminal. The subscriber terminal includes an input/output terminal for communicating with the radio unit input/output terminai, a display for displaying information to the subscriber, a keypad through which the subscriber can enter information and processor means. The subscriber terminal processor means controls the display and the keypad. It also processes the communication services information supplied by the radio unit.
It is also preferred to provide a second input/output terminal in the subscriberunit which is controlled by the processor means in the subscriber unit.
Peripheral devices such as magnetic swipe devices, printers, bar code scanners and serial keyboards can be connected to this second input/output device and operated under the control of the subscriber unit processor means.
In accordance with another aspect of the present invention, dispatch information is transmitted over a wireless communication system and is processed in a subscriber unit. The subscriber unit stores all dispatch activity in a memory. Then, when requested by the user of the subscriber unit, the memory is accessed and a list of information related to the dispatch communications is displayed along with the time of occurrence for each dispatch communication. In accordance with a further aspect of the present invention, the dispatch information can be used to enable the user of the subscriber unit to call the entity that generated the dispatch communication.
To call that entity, the user selects one of the displayed dispatch activities CA 02214781 1997-09-0~
W O 96/27950 PCTnUS96/03188 by cursoring up and down the iist and then selecting the appropriate key.
The subscriber unit then causes a call to be made to the source of the selected dispatch communication.
As part of a dispatch scanning function performed by the subscriber unit, the subscriber unit stores a list of one or more groups to which the subscriber is assigned to and, when a dispatch communication is received, the subscriber unit determines the group to which the dispatch is directed and informs the subscriber of the group. In accordance with yet another aspect of the present invention, this dispatch scanning function is modified to perform priority scanning, scan nuisance deiete and time scan disable.
In priority scanning, a priority level is assigned to each group and is stored by the subscriber unit in the list of assigned groups. Whenever a dispatch communication is received, the subscriber unit determines the group to which the dispatch is directed and then accesses the table of assigned groups and group priority levels. If there is an existing dispatch communication being processed when a new dispatch communication is received which is directed to one of the subscriber's groups, the subscriber unit compares the priority level of the existing dispatch communication and the priority level of the newly received dispatch communication and enables the reception of the dispatch communication with the highest priority level.
In scan nuisance delete, during times when there is excess and unwanted dispatch communication traffic to a group to which the subscriber CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 unit is assigned, the subscriber can select that group and delete it from the list which the subscriber unit maintains as part of the scanning function.
The subscriber unit then does not scan for dispatches to that group, thereby eliminating the nuisance traffic.
In time scan disable, the subscriber can program the subscriber unit to stop scanning the list of groups to which the subscriber unit is assigned and then, after a selected period of time, enable the subscriber unit to automatically start the scanning process again.
The invention will now be described in connection with certain illustrated embodiments; however, it should be clear to those skilled in the art that various modifications, additions and subtractions can be made without departing from the spirit and scope of the claims.
Description of the Drawings FIG. 1 illustrates a wireless communication system having a base station, a dispatch station and a plurality of subscriber units;
FIG. 2 illustrates the air interface utilized by the base station, the dispatch station and the subscriber units to communicate;
FIG. 3 shows a block diagram of the subscriber unit, including the radio unit and the subscriber terminal;
FIG. 4 illustrates an external view of the subscriber terminal;
FIG. 5 illustrates the circuitry of the subscriber terminal;
FIG. 6 illustrates the circuitry of the radio unit;
CA 02214781 1997-09-0~
W O 96/27950 PCTrUS96/03188 FIGS. 7 and 10 illustrate various screens shown on the display of the subscriber terminal during the dispatch mode;
FIG. 8 illustrates the distribution of dispatch group information to subscriber units;
FIG. 9 illustrates the steps taken by the subscriber unit upon reception of a dispatch and the steps taken to display the dispatch history;
FIG. 11 illustrates steps taken by the subscriber uriit in implementing the last dispatch function;
FIG. 12 illustrates the steps taken by the subscriber unit to perform 1 0 priority scanning;
FlG. 13 illustrates the steps taken by the subscriber unit to perform scan nuisance deletion; and FIG. 14 illustrates the steps taken by the subscriber unit to perform time scan deletion.
DescriPtion of the Preferred Embodiment Referring to FIG. 1, a communication system 1 is illustrated. The system 1 includes a base station 2, a dispatch station 4 and a plurality of subscriber units 6. The communication system 1 may be a frequency hopping system which is divided into sectors 8 to 10 wherein sets of frequencies are reused in each sector to provide wireless communications.
Note, however, that the present invention may be used on other types of communication systems, including TDMA systems, CDMA systems and even CA 02214781 1997-09-0~
W 096127950 PCTnUS96/03188 analog based systems.
The base station 2 includes the communication equipment necessary to provide the multiple access communications for the plurality of subscribers units 6 and for the dispatch station 4. The base station 2 also includes the communication equipment needed to provide communications through the Public Switched Telephone Network (PSTN).
The dispatch station 4 includes equipment necessary to dispatch communications from the dispatch station 4 to a number of subscriber units 6, commonly referred to as point-to-multipoint communications, and it also includes equipment that provides point-to-point communications. The subscriber units 6 generally consist of mobile or portable equipment necessary to transmit, receive and process communication signals.
Referring to FIG. 2, the communication links between the base station 2, the dispatch station 4 and the subscriber units 6 -- referred to as the common air interface -- are illustrated. The communication channels in FIG.
2 include a plurality of traffic channels (TCHs), at least one control channel (CCH) and at least one access channel (ACH). In the communication system 1 of FIG. 1, all of these channels are present in each sector 8 to 10. The TCHs operate in the uplink (transmissions from subscriber units 6 to the base station 2) and in the downlink (transmissions from the base station 2 to the subscriber units 6). The CCH and the ACH, however, operate only in one direction -- the CCH in the downlink and the ACH in the uplink.
-CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 In the illustrated embodiment of FIGS. 1 and 2, ten 25 kHz frequency channels are used to define ten uplink channels and ten 25 kHz frequency channels are used to define ten downlink channels. In each sector 8 to 10, nine of the frequency channels are used to implement nine uplink TCHs and nine of the frequency channels are used to implement nine downlink TCHs.
In each sector, the remaining frequency channels are used to transmit one ACH and one CCH. Voice information, data information and inband overhead control signals between the base station 2 and the subscriber units 6 are transmitted over the TCHs, preferably using frequency hopping and time hopping communication methodology - - but any communication method and any air interface may be used. Timing and control signals from the base station 2 to the subscriber unit 6 are transmitted on the CCH.
Status and operational requests from the subscriber unit 6 to the base station 2 are transmitted on the ACH. The common air interface of FIG. 2 is also used in communications between the base station 2 and the dispatch station 4.
Now that the communication system in which the subscriber unit 6 of the present invention operates has been described, the subscriber unit 6 will be described. Referring to FIG. 3, the subscriber unit 6 of the present invention is divided into two pieces of equipment, a radio unit 12 and a subscriber terminal 14. In general, the radio unit 12 transmits and receives communication signals to and from the base station 2, the dispatch station 4 CA 02214781 1997-09-0~
W 096/279~0 PCTrUS96/03188 or other subscriber units 6 through a pair of antennas 15 and 16 under the control of the subsc,iber terminal 14.
The radio unit 12, as ~vill be seen in greater detail in later discussions and figures, provides the processing power needed to transmit and receive by performing essential communication processes. For example, the radio unit 12 performs the needed signal processing on transmit and receive signals, such as voice coding, error correction encoding, interleaving, Viterbi decoding, frequency hopping, time hopping, automatic gain control, automatic frequency modulation, diversity reception processing and modulation. The radio unit 12 aiso determines whether communications are voice communications, data communications or dispatch communications as well as various attributes concerning these communicationtypesand uses this information to generate information about the communication services being provided. T his list will vary from communication system to communication system, however, the architecture of the present invention requires that the processing necessary to the communication system being used be included in the radio unit 12.
The radio unit 12, therefore processes the received and transmitted communication signals to provide communication services information. This information is provided to the subscriber terminal 14 through the interfaces 17 and 18. The subscriber unit 14 provides a keypad and display interface to a subscriber and r-ceives the communication services information from CA 022l478l l997-09-0~
W 096/27950 PCTnUS96/03188 the radio unit 12. The subscriber unit 14 also has a processor that controls the display and the keypad and also processes the communication services information provided by the radio unit 12.
The architecture of FIG. 3 is a client-server architecture wherein the subscriber terminal 14 is the client and the radio unit 12 is the server that serves the communication needs of the client the subscriber terminal 14. In the architecture of FIG. 3, the functions which provide an interface between communication services (voice transmit, voice receive, dispatch, data transfer, etc.) and the subscriber are performed by the subscriber terminal 14 while the functions which are necessary to interface to the communication system 1 to provide communication services are performed by the radio unit 12. Then when the subscriber requires the use of a communication service, the subscriber terminal 14 requests access to that service through the radio unit 12 and it is provided.
FIGS. 4 to 6 illustrate various aspects of the subscriber unit 6. In FIG. 4, an external view of a subscriber terminal 14, which is preferably positioned next to the subscriber in the passenger compartment of a vehicle, is illustrated. The subscriber terminal 14 includes a display 24, a keypad 26 and a handset 28. The keypad 26 includes five keys 30 to 34, commonly referred to as soft keys, whose function is defined by the features shown on the bottom of the display 24. The keypad 26 also includes a plurality of keys 36 to 43 having a variety of functions. Each of the keys 36 to 41 is CA 02214781 1997-09-0~
positioned ne~ct to a LED display 44 which is illuminated when the function associated with the key is enabled. The handset 28 includes a numeric keypad and the keys necessary to start and end a communication session.
The handset 28 aiso has the traditional push-to-talk button found on many radio units.
In FIGS. 5 and 6, the processing circuitry of the subscriber terminal 14 and the radio unit 12, respectively, is illustrated. Referring to FIG. 5, the subscriber terminal 14 includes a microprocessor 50, an oscillator circuit 52, a power supply circuit 54, a serial interface circuit 56, a display driver circuit 58, a memory circuit 60, a keyboard interface circuit 62, an l/0 decoder circuit 64, a LED driver 66 and an interface circuit 68. The subscriber terminal 14 can also include a real time ciock 70, however, in a preferred embodiment, the base station 2 distributes real time clock information during its transmission to each of the subscriber units 6. In this preferred embodiment, the microprocessor 50 extracts the real time clock information from signals transmitted by the base station 2 and stores it in the memory circuit 60. This information is combined with timing information generated by the oscillator circuit 52 to provide the subscriber terminal 14 with real time clock information. If the base station 2 distributed real time clock information is utilized, then the real time clock 70, its back up power source, the battery 72 and the battery management circuit 72 and 74 in the power supply circuit 54, can be eliminated.
CA 022l478l l997-09-0~
W 096/2795n PCTrUS96/03188 The memory circuit 60 includes a decoder circuit 76, an address latch 78, a boot ROM 80, a flash memory 82 and a static RAM 84. The boot ROM 80 stores the code necessary to initialize the microprocessor 50 and the circuitry of the subscriber terminal 14 as well as code necessary to download future software versions for the subscriber terminal 14. The flash memory 82 is non-volatile re-writable memory which is utilized to store information which must be maintained even during a loss of power. The static RAM 84 is utilized as a working memory as needed.
The display driver circuit 58 includes the LCD display 24, a power supply 86, a LCD controller 88, a memory circuit 90 and an address controller 92. The display driver circuit 58 is accessed by the microcontroller 50 via the l/O decoder 64. The information to be displayed is downloaded from the microprocessor 50 to the memory circuit 90. The display of the information on the display 24 is then controlled in a conventional manner by the LCD controller 88.
The microprocessor 50 is responsive to the selection of the keys 30 to 34 and 36 to 43, as well as to the selection of the keys on the handset 28.
When the keys are selected, selection signals are processed through the keyboard interface circuit 62 to the microprocessor 50. The microprocessor 50 also controls the LEDs 44 through the LED driver circuit 66. The RS-232 interface 94 provides communications between the subscriber terminal 14 and external devices, such as notebook computers, magnetic swipe devices CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 used to read magnetic strips, printers, bar code readers and serial keyboards.
The RS-485 interface 96 and the interface circuitry 68 provides communications between the subscriber terminal 14 and the receiver and transmitter circuitry of the radio unit 12 (shown in FIG. 6).
In FIG. 6, the circuitry of the radio unit 12 is illustrated. The radio unit 12 includes antennas 102 and 104, a radio board 106, a baseband unit 108, a service board 110, and a GPS interface 111. The radio unit circuitry illustrated in FIG. 6, except the antennas 102 and 104, in a preferred embodiment, is housed separately from the subscriber terminal 14, for example, inside the trunk of an automobile. The antennas 102 and 104 are preferably mounted externally on the automobile.
The radio board 106 includes transmitter and receiver circuitry. More particularly, it includes a transmitter 112, two receiver channels 114 and 116, a duplexer 118, a frequency synthesizer 120, gain and frequency control circuitry 122 and transmitter gain control circuitry 124. As previously describer, the circuitry of the radio board 106 provides communication via frequency hopping, that is, a communication signal is transmitted and received by hopping the signal over several different frequency channels.
The radio board 106 is interfaced with the baseband unit 108. The baseband unit 108 includes a modem 126, a controller 128, a voice processing package 130 and an interface circuit 132 to the subscriber CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 terminal's 14 circuitry. This baseband unit 108 receives the signals to be transmitted to the base station 2 from the subscriber terminal 14 and sends the signals to the transmitter 1 12 in the radio board 106 for transmission.
This baseband unit 108 also receives the signals that the radio board 106 receives from the base station 2, performs some processing on the received signals and sends them to the subscriber terminal 14 through the interface 1 32.
The subscriber terminal 14 has several operational modes, one of which is the dispatch mode. When a subscriber seiects the DISP KEY 41 on the subscriber terminal 14, the microprocessor 50 causes the subscriber terminal 14 to enter the dispatch mode, thereby allowing the subscriber to view information concerning the dispatch communications on the display 24.
Upon entering the dispatch mode, the microprocessor 50 preferably causes the screen shown in FIG. 7 to be displayed on the display 24 . The screen preferably has at least seven sequentially numbered lines. The second line of the display 24 displays the word "DISPATCH", indicating that the subscriber terminal 14 is in the dispatch operational mode.
The subscriber unit 6 of the present invention allows subscribers to be divided into groups and, if desired, into subgroups as the dispatcher desires.
For example, all subscribers that respond to the dispatch station 4 could be grouped according to their job function and subgrouped according to their regionai responsibilities. In this example, if the dispatcher is communicating -CA 02214781 1997-09-0~
W O 96/27950 PCTnUS96/03188 with sales, service and delivery personnel, the dispatcher could assign all sales personnel to a first group, all service personnel to a second group and - all delivery personnel in a third group. Then, calls which only concern sales personnel can be directed to the first group and so on.
Referring-to FiG. 8, the process of distributing the group and subgroup information to the subscriber units 6 is illustrated. In step 200, the grouping and, if desired, the subgrouping desired by the dispatcher is transmitted from the dispatch station 4 to the base station 2 over a TCH. The base station 2 updates a subscriber database that it maintains and then, in step 202, transmits the group and subgroup information to all of the subscriber units 6 over a CCH. The group and subgroup transmitted by the base station 2 to the subscriber unit 6 are preferably stored in the radio unit 12 in memory in the controller 128 circuitry in step 204. It is possible for the subscriber to be assigned to multiple groups or multiple subgroups, in which case each of the assigned groups is stored in the controller 128. It is further preferred that the dispatcher 4 be able to modify the assigned groups and subgroups at any time by the method of FIG. 8. Whenever the grouping information is transmitted, the controller 128 will receive this transmitted information and store a new grouping and sub-grouping in its memory upon receipt.
When a subscriber belongs to more than one group, the subscriber can cause the subscriber terminal 14 and the radio unit 12 to enter the scan mode. The controller 128 in the radio unit 12 stores a list of the groups that CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 a subscriber is assigned to. When in the scan mode, the controller 128 compares the group that a dispatch communication is directed to with the groups in the controller's 128 list. If there is a match, then the controller enables reception of that dispatch. If the group that the dispatch is directed to is not on the controller's 128 list, then the controller 128 does not enable reception of the dispatch.
Information concerning the dispatch group and subgroup that a dispatch transmission is directed to is displayed on the third and sixth lines of the display 24 shown in FIG. 7. In FIG. 7, the "12a" (or just "12" if subgroup information is not being used) on the third line indicates the active group and subgroup of the subscriber unit 16. The "12" indicates the group and the "a" indicates the subgroup. The active group is the group which the subscriber can both hear and transmit to in the dispatch mode. The "3c" on the sixth line, just above the label LAST, indicates the last group and subgroup on which there was a dispatch call. The "5a" on the sixth line, just above the label PICK, indicates the group and subgroup to which an incoming dispatch is directed.
The items displayed on the seventh line of the display of FIG. 7 define the functions of the soft keys 30 to 34. In the dispatch mode, as shown in FIG. 7, the soft keys are defined as follows: the first soft key 30 (labeled "SCAN") implements the previously discussed scanning function, the second soft key 31 (labeled "PICK"), when selected, allows the subscriber to change CA 022l478l l997-09-0~
W 096/27950 PCT~US96/03188 the active group as displayed on the third line of the display to the group displayed just above the PICK label (5a in FIG. 7), the third soft key 32 - (labeled "1 T0 1") implements a function which is not relevant to this invention, the fourth soft key 33 (labeled "HIST") implements a dispatch communication processing function in accordance with one aspect of the present invention and the fifth soft key 34 (labeled "LAST") implements another dispatch communication processing function in accordance with another aspect of the present invention.
Before further describing the functions performed when the HIST and LAST soft keys are selected by the subscriber, some of the background processing performed by the subscriber terminal 14 and the radio unit 12 will be described. FIG. 9 illustrates some of the steps taken by the radio unit 12 and the subscriber terminal 14 each time a communication is received. In step 300, the radio terminal 12 determines whether the transmission is a dispatch communication. To allow the radio terminal 12 to perform step 300, the base station 2 adds control bits to transmitted communication signals on the CCH that match a predetermined sequence when the communication is a dispatch communication. The controller 128 processes each communication signal received by the radio unit 12 to determine the status of the control bits added to the communication signal by the base station 2. The controller 128 compares these control bits to the predetermined sequence which is stored in the controller 128 memory to CA 02214781 1997-09-0~
W 096127950 PCTrUS96/03188 determine whether the received communication signal is a dispatch communication .
If the communication is not a dispatch communication, then the controller 128 exits the processing routine of FIG. 9 to perform other tasks on the receive communication signals. On the other hand, if the transmission is a dispatched communication, then, in step 302, the controller 128 accesses the control information in the communication signal to determine the group and subgroup (or groups and subgroups) that the dispatch communication is directed to. Then in step 304, the controller 128 accesses its memory to determine which groups and/or which subgroups the subscriber is allowed access to and compares this to the information contained in the dispatch communication. In essence the controller 128 determines whether the base station 2 has indicated that the subscriber belongs to the group.
If the subscriber is not permitted access to the dispatch, then the controller 128 exits this process to perform other tasks. If the subscriber is permitted access to the dispatch communication, then the controller 128 checks to see if the scan function is enabled or if the group is the active group. If either the scan function is enable or the group is the active group, the controller 128, in step 306, causes the dispatch communication signal to be sent from the radio unit 12 to the subscriber terminal 14. Otherwise, this process is exited.
CA 02214781 1997-09-0~
W 096/27950 PCTnUS96/03188 In step 308, in the subscriber terminal 14, the microprocessor 50 scans the static RAM 84 which stores various information relating to the past dispatch communications received by the subscriber terminal 14 which have been directed to a group and/or a sub-group that the subscriber has been assigned to. The information stored includes the group and subgroup of the dispatch communication as well as the time of the dispatch communication. The microprocessor 50 determines whether there has been a dispatch communication directed to the same group as the present dispatch communication within a predetermined time period, preferably within the last minute. If the microprocessor 50 determines that there has been a dispatch communication directed to the group within the last minute, the microprocessor 50 exits this routine. If, however, there has been no dispatch sent to this group within the last minute, the microprocessor 50 continues to step 310 to process the dispatch communication. The purpose of step 308 is to prevent rapidly repeated dispatch communications within a group from being stored and displayed to the subscriber thus overwhelming the history function.
In step 310, the dispatch communication is time tagged by the microprocessor 50. The microprocessor 50 can time tag the dispatch either by accessing the real time clock 70 or by utilizing real time clock information that is distributed by the base station 10. After the time tagging, in step 312, the microprocessor 50 stores information associated with the dispatch CA 02214781 1997-09-0~
W O 96/27950 PCTrUS96/03188 communicat,on in the static RAM ~4 The stored information nc!udes the group, subgroups and the time tag associated with the dispatch communication .
In accordance with the present invention, the subscriber can access the stored information concerning dispatch communications by selecting the fourth soft key 33 ~hich is labeled "HIST" in the dispatch op~r2tional mode.
When the HIST key is selected and the subscriber terminal 1~ is in the dispatch operational mode, the microprocessor 50 preferably causes the subscriber terminal 14 to implement a function whereby a history of information concerning or relating to the dispatch communications is displayed to the subscriber. When the HIST soft key 33 is selected, the microprocessor 50 causes the screen illustrated in FIG. 10 to be shown on the display 24. The second line of the display of F~.10, "DISP: CALL
HISTORY", indicates that the subscriber terminal 14 is in the history mode.
Then, on lines 4 to 6, information relating to the last three dispatch communications is displayed. The displayed information includes the group to which each dispatch communication was directed as well as the time that the dispatch communication was received. Also, the subgroup can be displayed. In a preferred embodiment, the subscriber can access the last ten dispatch communications that have information stored in memory by usins the cursor up and cursor down keys 42 and 43 to cause the microprocessor 50 to display additional items from the lists of information that do not fit 2c CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 onto the display 24 The microprocessor 50 causes this information to be displayed by accessing the static RAM 84, retrieving the listing of stored information relating to past dispatch communications, including the associated group and time tags, and sending the information to the display 24 through the display driver circuit 58. Referring to FIG. 10, it can be seen that the subscriber can determine that the last dispatch communications received by the subscriber unit 16 were directed to a variety of groups at a variety of times. In particular, in this example, the display indicates to the subscriber that dispatch communications were sent to Group 3 at 1 1:14 a.m., to Group 9 at 10:58 a.m. and to the Sales Group at 9:12 a.m.
The arrows on iine 4 of FIG. 10 indicate that the user of the radio terminal 22 can scroll up and down the displayed listing of dispatch information by using the keys 43 and 42, respectively. The subscriber terminal 14 of the present invention also enables the subscriber to make a call to the source of any of the dispatch communications. This is accomplished by scrolling to the line where information relating to the desired dispatch is displayed and then pressing a Push-to-Talk tPTT) button on the subscriber unit 16, which is located on the handset 28 of the radio terminal. The selection of the PTT button is recognized by the microprocessor 50 which then causes a main screen to be displayed as well as causing the transmission to occur, as described in the following. Upon CA 02214781 1997-09-0~
W 096127950 PCTnUS96/03188 recognition of the selection of the PTT button, the microprocessor 50 determines which group the subscriber wishes to communicate with by accessing the memory 84 to see which listed dispatch communication the subscriber has selected. This information is passed to the radio unit 12 where the controller 128 formats a communication signal to be directed to the dispatch group which the subscriber selected. Communication signals are then sent by the transmitter 1 12.
In accordance with another aspect of the present invention, the subscriber can easily change the active group of the subscriber unit--displayed on the third line of the display 24 -- to the last group -- the group that was just previously active on the subscriber terminal 14 which is dispiayed just above the LAST softkey -- by selecting the fifth soft key 34 which is labeled "LAST" while in the dispatch operational mode. The last group then becomes what was the active group. As an example, in FIG. 7, 1 2a is the active group and 3c is the last group. If a subscriber selects the LAST softkey, 3c becomes the active group and 1 2a becomes the last group .
Referring to FIG. 11, This function is accomplished in the subscriber terminal 14 by the microprocessor 50. The microprocessor 50 maintains the active group and the last group in memory 84. The microprocessor 50, in step 350, senses the selection of the LAST softkey and then, in step 352, causes the active group and the last active group stored in the memory 84 CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 to be toggled. The microprocessor 50 also causes the groups shown in the display 24 to be toggled. This allows a subscriber to quickiy respond to a dispatch communication from another group.
Referring to FIG. 11, steps 354 to 364 illustrate the other steps performed by the subscriber terminal 14 in implementing the last dispatch function. In step 354, the microprocessor 50 determines when a dispatch is received. When a dispatch is received, in step 356, the microprocessor 50 determines whether the PICK softkey is selected. If the PICK softkey is not selected, the microprocessor 50 causes the group to which the incoming dispatch was directed to become the last group, but the active group is not changed. As an example, if the active group was 9, the last group was 6 and the group to which the incoming dispatch was directed was 3, the last group would be changed to 3, but the active group would remain 9 if the PICK softkey is not selected.
If the PICK softkey is selected, then in step 360, the microprocessor 50 changes the active group to the group to which the incoming dispatch is directed and changes the last group to what was the active group. As an example, if the active group was 9, the last group was 6 and the group to which the incoming dispatch was directed was 3, then the last group would be changed to 9 and the active group would be changed to 3.
If a new group is manually selected by a subscriber using keys on the handset 28, the microprocessor 50 senses the selection in step 362. Then CA 02214781 1997-09-0~
W O 96/27950 PCTnUS96/03188 in step 364, the microprocessor 50 causes the active group to be changed to the manually selected group and causes the last group to be changed to the previously active group. As an example, if the active group was 9, the Iast group was 6 and the manually selected group was 4, then the active group would be 4 and the iast group would be 9. In an alternative embodiment, in step 364, the microprocessor 50 changes the active group to the manuaily selected group but does not change the last grGup. In the above example, the active group would again be changed to 4 but the last group would remain 6.
Referring now to FIG. 12, the steps performed by the controller 128 in the radio unit 12 to implement the priority scan function are illustrated. In step 40~:), the controller 128 determines whether a received signal is a dispatch communications. If it is not, the controller 128 performs other functions. If the received signal is a dispatch communication, then the controller 128 determires in step 402 the group to which the disp~l-;h communication is directed by accessing the control information associated with the communication .
Then in step 404, the controller 128 accesses its memory to determine whether the subscriber unit 6 belongs to the group to which the dispatch communication is directed. Recall that this information is transmitted by a dispatch station 4 through the base station 2 to the subscriber terminal 14. If the subscriber unit 6 finds that it does not belong CA 02214781 1997-09-0~
W O 96/27950 PCTrUS96/03188 to the group, then the controller 128 goes on to perform other functions.
On the other hand, if the subscriber unit 6 finds that it does belong to the group, then the controller 128 checks to see if the scan function is enabled.
Then, if scan is enabled, in step 406, determines whether there is a prior dispatch communication being processed. If there is no prior dispatch communication being processed, then the controller 128 goes on to perform other functions, such as processing the current dispatch communication. If there is a prior dispatch communication being processed, then the controller 128 determines whether the subscriber has selected priority scan or not.
The subscriber selects priority scan from the subscriber terminal 14 by selecting the SETUP button 39 on the keypad 26. During the setup routine, the subscriber will be given the option of enabling or disabling priority scan.
The subscriber terminal 14 transmits control signals to the radio unit 12 that indicate the status of priority scan which are stored in the memory of the radio unit 12. If priority scan is enabled, as part of the setup, the subscriberwill be able to assign a priority level to each group to which he is assigned.
Alternatively, the dispatcher can assign a priority level to the group and transmit that information with the group assignments to the base station 2 and ultimately to the subscriber units 6. In any event, the controller 128, in addition to storing the group assignments, stores the priority level of the group in its memory. In a preferred embodiment, there are two priority ~ Ievels, high and low. In an aiternate embodiment, there are a plurality of CA 02214781 1997-09-0~
W 096127950 PCTrUS96/03188 priority levels which can be assigned to each of the groups.
Referring back to FIG. 12, if priority scan has been disabled, then after step 408 the controller 128 performs other tasks. If, however, priority scan has been enabled, then in step 410, the controller 128 accesses the priority level of the dispatch communication being processed and the priority Ievel of the newly received dispatch communication. The controller 128 then compares these priority levels. If the priority level of the newly received dispatch communication is less than or equal to the priority level of the dispatch communication being processed, then the controller 128 goes on to perform other processing steps. If, however, the priority level of the newly received dispatch communication is greater than the priority level of the dispatch communication being processed, the controller 128 in step 412 causes the newly received dispatch communication to be received by the subscriber on the subscriber terminal 14.
Referring now to FIG. 13, the steps performed by the controller 128 in the radio unit 12 when implementing the scan nuisance delete function are illustrated. In step 440, the controller 128 determines whether the subscriber has enabled the scan nuisance delete function.
In a preferred embodiment, this function is enabled or disabled by the subscriber during the setup mode. As before, the subscriber enters the setup mode by selecting the SETUP button 39 on the keypad 26. During setup, the subscriber will be prompted to either enable or disable the scan CA 02214781 1997-09-0~
W 096127950 PCTrUS96/03188 nuisance function. If the scan nuisance function is enabled, the subscriber will also be prompted to enter one or more groups which are to be deleted and to enter a length of time.
Referring back to FIG. 13, the subscriber terminal 14 transmits control information to the radio unit 12 that indicates whether the scan nuisance delete function is enabled or disabled and if enabled, which group or groups are to be deleted and a length of time the deletion shall be implemented.
The controller 128 receives this information and, in step 442, determines which group or groups to delete from the scan list. In step 444, the controller 128 determines the length of time the group or groups shall be deleted from the scan list.
Next, in step 446, in a preferred embodiment, the controller 128 prompts the subscriber terminal 14 to ask the subscriber for a password that indicates that the subscriber is authorized to enable the scan nuisance delete function. If the subscriber enters an incorrect password, then the controller 128 proceeds to other processing steps. If the subscriber enters a correct password, then in step 448 the controller 128 causes the group or groups selected by the subscriber to be deleted from the scan list for the length of time selected by the subscriber. Then, in step 4~0, the controller 128, after the passage of the selected length of time, causes the deleted group or groups to be added back to the scan list.
~ In accordance with another preferred embodiment, the controller 128 CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 chec~s the priorit~/ of each of the groups seiected for tempor2 ~ deletion.
This priority can be set as previously described -- either by the subscriber or by the dispatcher at the dispatcn station. When the scan nuis2nce delete function is enabled, the controller 128, before deleting any grGups from the scan list, checks the priority of each of the groups selected fcr deietion. If the priority exceeds a predetermined threshold which is preferebly set by the dispatcher at the dispatch station 4, then that group is not de!e~ed from the scan list by the controller 128. Then the controller 128 sends a control signal to the subscriber terminal 14 to inform the subscriber that the group could not be deleted because of its priority level.
Referring to FIG. 14, the steps performed by the subscriber unit 6 to implement the time scan disable function are illustrated. In step 460, the controller 128 determines whether the time scan disable function is enabled or disabled. This function is preferably enabled or disabled by the subscriber in the setup mode, which is entered into by selecting the SETUP button 39.
During the setup mode, if the time scan disable function is enabled, the subscriber can aiso enter a time which will be the time that the scanning function is disabled(Step 462). This information is transmitted to the controller 128 so that the controller 128 can determine the length of time that the scanning function should be disabled for.
In accordance ~vith a preferred embodiment of the present invention, if the subscriber attempts to enable the time scan disable function, the 2~
CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 subscriber terminal 14, in step 464 asks the subscriber for a password. The password is preferably set by the dispatcher from the dispatch station through transmissions through the base station 2. The subscriber then enters the password. If the password is incorrect, the microprocessor 50 in the subscriber terminal 14 determines that the subscriber is not authorized to enable the time scan disable function. If the password is correct, then the microprocessor 50 transmits the instruction to the controller 128 to stop the scanning function.
In step 466, the controller 128, when it receives the instruction from the microprocessor 50, stops scanning the previously described list of groups that the subscriber belongs to. Part of the instruction sent by the microprocessor 50 is the disabling time selected by the subscriber. The controller 128 keeps the scanning function disable for the selected length of time. Then, after the passage of the selected period of time, the controller 128 causes the scanning function to begin again.
It is understood that changes may be made in the above description without departing from the scope of the invention. It is accordingly intended that all matter contained in the above description and in the drawings be interpreted as illustrative rather than limiting.
W 096/27950 PCTrUS96/03188 A SUBSCRIBER UNIT FO~ USE IN A
MULTIPLE ACCESS COMMUNICATION S'~STEM
Backqround of the Invention The present invention relates to wireless communication systems.
More specifically, it relates to the subscriber units used in mobile wireless communication systems.
Current efforts in wireless communications, particularly in the segment of wireless communications referred to as Specialized Mobile Radio (SMR), have the goal of providing greater functionality to the SMR user, commonly known as a subscriber. These efforts have been limited by problems in the present SMR equipment. One equipment area where severe limitations exist is in the unit the subscriber uses to communicate, known as the subscriber unit.
The limitations include a problematic electronic architectural design that hinders the capabilities of the subscriber unit. As a result of this limitation, the subscriber units are unable to efficiently process the signals they communicate, including voice and data signals. Further, as a result of the problematic architecture, the subscriber units are unable to efficiently handle peripheral devices which may be necessary to efficiently process the communication signals received by the subscriber unit.
Current subscriber units are also limited in the features that they provide to their users, thereby causing inefficient use of communications resources. Many of these limitations exist in dispatch communication, CA 02214781 1997-09-0~
W 096/279~0 PCTrUS96/03188 wherein businesses that have field employees -- employees working outside the office environment -- communicate with one or more of those employees at a time. One problem commonly encountered is that the field employees often must leave their vehicles (where the subscriber units are mounted) in order to perform their jobs and thus are not always able to hear the dispatched information on their radio terminals. If the field employee is away from the vehicle when a message is dispatched, the employee wiil miss the dispatched message. Depending on the importance of the message, this can lead to unfortunate results. This is but one example of the problems with current subscriber units -- there are many others.
In view of these and other limitations, systems and methods for more efficiently processing dispatched communications, therefore, are needed.
Summarv of the Invention In accordance with the present invention, a new subscriber unit architecture is utilized. The mobile subscriber unit of the present invention includes two pieces of equipment, a radio unit and a subscriber terminal. In accordance with a preferred embodiment of the present invention, the radio unit is housed in the trunk of an automobile while the subscriber terminal is housed in the passenger compartment of the automobile.
The radio unit includes a receiver, a transmitter, an inputloutput terminal, and processing means. The radio unit processor means processes the received and transmitted communication signals to provide communication services information through the radio unit input!output CA 02214781 1997-09-0~
W O 96/279~0 PCTrUS96/03188 terminal. The subscriber terminal includes an input/output terminal for communicating with the radio unit input/output terminai, a display for displaying information to the subscriber, a keypad through which the subscriber can enter information and processor means. The subscriber terminal processor means controls the display and the keypad. It also processes the communication services information supplied by the radio unit.
It is also preferred to provide a second input/output terminal in the subscriberunit which is controlled by the processor means in the subscriber unit.
Peripheral devices such as magnetic swipe devices, printers, bar code scanners and serial keyboards can be connected to this second input/output device and operated under the control of the subscriber unit processor means.
In accordance with another aspect of the present invention, dispatch information is transmitted over a wireless communication system and is processed in a subscriber unit. The subscriber unit stores all dispatch activity in a memory. Then, when requested by the user of the subscriber unit, the memory is accessed and a list of information related to the dispatch communications is displayed along with the time of occurrence for each dispatch communication. In accordance with a further aspect of the present invention, the dispatch information can be used to enable the user of the subscriber unit to call the entity that generated the dispatch communication.
To call that entity, the user selects one of the displayed dispatch activities CA 02214781 1997-09-0~
W O 96/27950 PCTnUS96/03188 by cursoring up and down the iist and then selecting the appropriate key.
The subscriber unit then causes a call to be made to the source of the selected dispatch communication.
As part of a dispatch scanning function performed by the subscriber unit, the subscriber unit stores a list of one or more groups to which the subscriber is assigned to and, when a dispatch communication is received, the subscriber unit determines the group to which the dispatch is directed and informs the subscriber of the group. In accordance with yet another aspect of the present invention, this dispatch scanning function is modified to perform priority scanning, scan nuisance deiete and time scan disable.
In priority scanning, a priority level is assigned to each group and is stored by the subscriber unit in the list of assigned groups. Whenever a dispatch communication is received, the subscriber unit determines the group to which the dispatch is directed and then accesses the table of assigned groups and group priority levels. If there is an existing dispatch communication being processed when a new dispatch communication is received which is directed to one of the subscriber's groups, the subscriber unit compares the priority level of the existing dispatch communication and the priority level of the newly received dispatch communication and enables the reception of the dispatch communication with the highest priority level.
In scan nuisance delete, during times when there is excess and unwanted dispatch communication traffic to a group to which the subscriber CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 unit is assigned, the subscriber can select that group and delete it from the list which the subscriber unit maintains as part of the scanning function.
The subscriber unit then does not scan for dispatches to that group, thereby eliminating the nuisance traffic.
In time scan disable, the subscriber can program the subscriber unit to stop scanning the list of groups to which the subscriber unit is assigned and then, after a selected period of time, enable the subscriber unit to automatically start the scanning process again.
The invention will now be described in connection with certain illustrated embodiments; however, it should be clear to those skilled in the art that various modifications, additions and subtractions can be made without departing from the spirit and scope of the claims.
Description of the Drawings FIG. 1 illustrates a wireless communication system having a base station, a dispatch station and a plurality of subscriber units;
FIG. 2 illustrates the air interface utilized by the base station, the dispatch station and the subscriber units to communicate;
FIG. 3 shows a block diagram of the subscriber unit, including the radio unit and the subscriber terminal;
FIG. 4 illustrates an external view of the subscriber terminal;
FIG. 5 illustrates the circuitry of the subscriber terminal;
FIG. 6 illustrates the circuitry of the radio unit;
CA 02214781 1997-09-0~
W O 96/27950 PCTrUS96/03188 FIGS. 7 and 10 illustrate various screens shown on the display of the subscriber terminal during the dispatch mode;
FIG. 8 illustrates the distribution of dispatch group information to subscriber units;
FIG. 9 illustrates the steps taken by the subscriber unit upon reception of a dispatch and the steps taken to display the dispatch history;
FIG. 11 illustrates steps taken by the subscriber uriit in implementing the last dispatch function;
FIG. 12 illustrates the steps taken by the subscriber unit to perform 1 0 priority scanning;
FlG. 13 illustrates the steps taken by the subscriber unit to perform scan nuisance deletion; and FIG. 14 illustrates the steps taken by the subscriber unit to perform time scan deletion.
DescriPtion of the Preferred Embodiment Referring to FIG. 1, a communication system 1 is illustrated. The system 1 includes a base station 2, a dispatch station 4 and a plurality of subscriber units 6. The communication system 1 may be a frequency hopping system which is divided into sectors 8 to 10 wherein sets of frequencies are reused in each sector to provide wireless communications.
Note, however, that the present invention may be used on other types of communication systems, including TDMA systems, CDMA systems and even CA 02214781 1997-09-0~
W 096127950 PCTnUS96/03188 analog based systems.
The base station 2 includes the communication equipment necessary to provide the multiple access communications for the plurality of subscribers units 6 and for the dispatch station 4. The base station 2 also includes the communication equipment needed to provide communications through the Public Switched Telephone Network (PSTN).
The dispatch station 4 includes equipment necessary to dispatch communications from the dispatch station 4 to a number of subscriber units 6, commonly referred to as point-to-multipoint communications, and it also includes equipment that provides point-to-point communications. The subscriber units 6 generally consist of mobile or portable equipment necessary to transmit, receive and process communication signals.
Referring to FIG. 2, the communication links between the base station 2, the dispatch station 4 and the subscriber units 6 -- referred to as the common air interface -- are illustrated. The communication channels in FIG.
2 include a plurality of traffic channels (TCHs), at least one control channel (CCH) and at least one access channel (ACH). In the communication system 1 of FIG. 1, all of these channels are present in each sector 8 to 10. The TCHs operate in the uplink (transmissions from subscriber units 6 to the base station 2) and in the downlink (transmissions from the base station 2 to the subscriber units 6). The CCH and the ACH, however, operate only in one direction -- the CCH in the downlink and the ACH in the uplink.
-CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 In the illustrated embodiment of FIGS. 1 and 2, ten 25 kHz frequency channels are used to define ten uplink channels and ten 25 kHz frequency channels are used to define ten downlink channels. In each sector 8 to 10, nine of the frequency channels are used to implement nine uplink TCHs and nine of the frequency channels are used to implement nine downlink TCHs.
In each sector, the remaining frequency channels are used to transmit one ACH and one CCH. Voice information, data information and inband overhead control signals between the base station 2 and the subscriber units 6 are transmitted over the TCHs, preferably using frequency hopping and time hopping communication methodology - - but any communication method and any air interface may be used. Timing and control signals from the base station 2 to the subscriber unit 6 are transmitted on the CCH.
Status and operational requests from the subscriber unit 6 to the base station 2 are transmitted on the ACH. The common air interface of FIG. 2 is also used in communications between the base station 2 and the dispatch station 4.
Now that the communication system in which the subscriber unit 6 of the present invention operates has been described, the subscriber unit 6 will be described. Referring to FIG. 3, the subscriber unit 6 of the present invention is divided into two pieces of equipment, a radio unit 12 and a subscriber terminal 14. In general, the radio unit 12 transmits and receives communication signals to and from the base station 2, the dispatch station 4 CA 02214781 1997-09-0~
W 096/279~0 PCTrUS96/03188 or other subscriber units 6 through a pair of antennas 15 and 16 under the control of the subsc,iber terminal 14.
The radio unit 12, as ~vill be seen in greater detail in later discussions and figures, provides the processing power needed to transmit and receive by performing essential communication processes. For example, the radio unit 12 performs the needed signal processing on transmit and receive signals, such as voice coding, error correction encoding, interleaving, Viterbi decoding, frequency hopping, time hopping, automatic gain control, automatic frequency modulation, diversity reception processing and modulation. The radio unit 12 aiso determines whether communications are voice communications, data communications or dispatch communications as well as various attributes concerning these communicationtypesand uses this information to generate information about the communication services being provided. T his list will vary from communication system to communication system, however, the architecture of the present invention requires that the processing necessary to the communication system being used be included in the radio unit 12.
The radio unit 12, therefore processes the received and transmitted communication signals to provide communication services information. This information is provided to the subscriber terminal 14 through the interfaces 17 and 18. The subscriber unit 14 provides a keypad and display interface to a subscriber and r-ceives the communication services information from CA 022l478l l997-09-0~
W 096/27950 PCTnUS96/03188 the radio unit 12. The subscriber unit 14 also has a processor that controls the display and the keypad and also processes the communication services information provided by the radio unit 12.
The architecture of FIG. 3 is a client-server architecture wherein the subscriber terminal 14 is the client and the radio unit 12 is the server that serves the communication needs of the client the subscriber terminal 14. In the architecture of FIG. 3, the functions which provide an interface between communication services (voice transmit, voice receive, dispatch, data transfer, etc.) and the subscriber are performed by the subscriber terminal 14 while the functions which are necessary to interface to the communication system 1 to provide communication services are performed by the radio unit 12. Then when the subscriber requires the use of a communication service, the subscriber terminal 14 requests access to that service through the radio unit 12 and it is provided.
FIGS. 4 to 6 illustrate various aspects of the subscriber unit 6. In FIG. 4, an external view of a subscriber terminal 14, which is preferably positioned next to the subscriber in the passenger compartment of a vehicle, is illustrated. The subscriber terminal 14 includes a display 24, a keypad 26 and a handset 28. The keypad 26 includes five keys 30 to 34, commonly referred to as soft keys, whose function is defined by the features shown on the bottom of the display 24. The keypad 26 also includes a plurality of keys 36 to 43 having a variety of functions. Each of the keys 36 to 41 is CA 02214781 1997-09-0~
positioned ne~ct to a LED display 44 which is illuminated when the function associated with the key is enabled. The handset 28 includes a numeric keypad and the keys necessary to start and end a communication session.
The handset 28 aiso has the traditional push-to-talk button found on many radio units.
In FIGS. 5 and 6, the processing circuitry of the subscriber terminal 14 and the radio unit 12, respectively, is illustrated. Referring to FIG. 5, the subscriber terminal 14 includes a microprocessor 50, an oscillator circuit 52, a power supply circuit 54, a serial interface circuit 56, a display driver circuit 58, a memory circuit 60, a keyboard interface circuit 62, an l/0 decoder circuit 64, a LED driver 66 and an interface circuit 68. The subscriber terminal 14 can also include a real time ciock 70, however, in a preferred embodiment, the base station 2 distributes real time clock information during its transmission to each of the subscriber units 6. In this preferred embodiment, the microprocessor 50 extracts the real time clock information from signals transmitted by the base station 2 and stores it in the memory circuit 60. This information is combined with timing information generated by the oscillator circuit 52 to provide the subscriber terminal 14 with real time clock information. If the base station 2 distributed real time clock information is utilized, then the real time clock 70, its back up power source, the battery 72 and the battery management circuit 72 and 74 in the power supply circuit 54, can be eliminated.
CA 022l478l l997-09-0~
W 096/2795n PCTrUS96/03188 The memory circuit 60 includes a decoder circuit 76, an address latch 78, a boot ROM 80, a flash memory 82 and a static RAM 84. The boot ROM 80 stores the code necessary to initialize the microprocessor 50 and the circuitry of the subscriber terminal 14 as well as code necessary to download future software versions for the subscriber terminal 14. The flash memory 82 is non-volatile re-writable memory which is utilized to store information which must be maintained even during a loss of power. The static RAM 84 is utilized as a working memory as needed.
The display driver circuit 58 includes the LCD display 24, a power supply 86, a LCD controller 88, a memory circuit 90 and an address controller 92. The display driver circuit 58 is accessed by the microcontroller 50 via the l/O decoder 64. The information to be displayed is downloaded from the microprocessor 50 to the memory circuit 90. The display of the information on the display 24 is then controlled in a conventional manner by the LCD controller 88.
The microprocessor 50 is responsive to the selection of the keys 30 to 34 and 36 to 43, as well as to the selection of the keys on the handset 28.
When the keys are selected, selection signals are processed through the keyboard interface circuit 62 to the microprocessor 50. The microprocessor 50 also controls the LEDs 44 through the LED driver circuit 66. The RS-232 interface 94 provides communications between the subscriber terminal 14 and external devices, such as notebook computers, magnetic swipe devices CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 used to read magnetic strips, printers, bar code readers and serial keyboards.
The RS-485 interface 96 and the interface circuitry 68 provides communications between the subscriber terminal 14 and the receiver and transmitter circuitry of the radio unit 12 (shown in FIG. 6).
In FIG. 6, the circuitry of the radio unit 12 is illustrated. The radio unit 12 includes antennas 102 and 104, a radio board 106, a baseband unit 108, a service board 110, and a GPS interface 111. The radio unit circuitry illustrated in FIG. 6, except the antennas 102 and 104, in a preferred embodiment, is housed separately from the subscriber terminal 14, for example, inside the trunk of an automobile. The antennas 102 and 104 are preferably mounted externally on the automobile.
The radio board 106 includes transmitter and receiver circuitry. More particularly, it includes a transmitter 112, two receiver channels 114 and 116, a duplexer 118, a frequency synthesizer 120, gain and frequency control circuitry 122 and transmitter gain control circuitry 124. As previously describer, the circuitry of the radio board 106 provides communication via frequency hopping, that is, a communication signal is transmitted and received by hopping the signal over several different frequency channels.
The radio board 106 is interfaced with the baseband unit 108. The baseband unit 108 includes a modem 126, a controller 128, a voice processing package 130 and an interface circuit 132 to the subscriber CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 terminal's 14 circuitry. This baseband unit 108 receives the signals to be transmitted to the base station 2 from the subscriber terminal 14 and sends the signals to the transmitter 1 12 in the radio board 106 for transmission.
This baseband unit 108 also receives the signals that the radio board 106 receives from the base station 2, performs some processing on the received signals and sends them to the subscriber terminal 14 through the interface 1 32.
The subscriber terminal 14 has several operational modes, one of which is the dispatch mode. When a subscriber seiects the DISP KEY 41 on the subscriber terminal 14, the microprocessor 50 causes the subscriber terminal 14 to enter the dispatch mode, thereby allowing the subscriber to view information concerning the dispatch communications on the display 24.
Upon entering the dispatch mode, the microprocessor 50 preferably causes the screen shown in FIG. 7 to be displayed on the display 24 . The screen preferably has at least seven sequentially numbered lines. The second line of the display 24 displays the word "DISPATCH", indicating that the subscriber terminal 14 is in the dispatch operational mode.
The subscriber unit 6 of the present invention allows subscribers to be divided into groups and, if desired, into subgroups as the dispatcher desires.
For example, all subscribers that respond to the dispatch station 4 could be grouped according to their job function and subgrouped according to their regionai responsibilities. In this example, if the dispatcher is communicating -CA 02214781 1997-09-0~
W O 96/27950 PCTnUS96/03188 with sales, service and delivery personnel, the dispatcher could assign all sales personnel to a first group, all service personnel to a second group and - all delivery personnel in a third group. Then, calls which only concern sales personnel can be directed to the first group and so on.
Referring-to FiG. 8, the process of distributing the group and subgroup information to the subscriber units 6 is illustrated. In step 200, the grouping and, if desired, the subgrouping desired by the dispatcher is transmitted from the dispatch station 4 to the base station 2 over a TCH. The base station 2 updates a subscriber database that it maintains and then, in step 202, transmits the group and subgroup information to all of the subscriber units 6 over a CCH. The group and subgroup transmitted by the base station 2 to the subscriber unit 6 are preferably stored in the radio unit 12 in memory in the controller 128 circuitry in step 204. It is possible for the subscriber to be assigned to multiple groups or multiple subgroups, in which case each of the assigned groups is stored in the controller 128. It is further preferred that the dispatcher 4 be able to modify the assigned groups and subgroups at any time by the method of FIG. 8. Whenever the grouping information is transmitted, the controller 128 will receive this transmitted information and store a new grouping and sub-grouping in its memory upon receipt.
When a subscriber belongs to more than one group, the subscriber can cause the subscriber terminal 14 and the radio unit 12 to enter the scan mode. The controller 128 in the radio unit 12 stores a list of the groups that CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 a subscriber is assigned to. When in the scan mode, the controller 128 compares the group that a dispatch communication is directed to with the groups in the controller's 128 list. If there is a match, then the controller enables reception of that dispatch. If the group that the dispatch is directed to is not on the controller's 128 list, then the controller 128 does not enable reception of the dispatch.
Information concerning the dispatch group and subgroup that a dispatch transmission is directed to is displayed on the third and sixth lines of the display 24 shown in FIG. 7. In FIG. 7, the "12a" (or just "12" if subgroup information is not being used) on the third line indicates the active group and subgroup of the subscriber unit 16. The "12" indicates the group and the "a" indicates the subgroup. The active group is the group which the subscriber can both hear and transmit to in the dispatch mode. The "3c" on the sixth line, just above the label LAST, indicates the last group and subgroup on which there was a dispatch call. The "5a" on the sixth line, just above the label PICK, indicates the group and subgroup to which an incoming dispatch is directed.
The items displayed on the seventh line of the display of FIG. 7 define the functions of the soft keys 30 to 34. In the dispatch mode, as shown in FIG. 7, the soft keys are defined as follows: the first soft key 30 (labeled "SCAN") implements the previously discussed scanning function, the second soft key 31 (labeled "PICK"), when selected, allows the subscriber to change CA 022l478l l997-09-0~
W 096/27950 PCT~US96/03188 the active group as displayed on the third line of the display to the group displayed just above the PICK label (5a in FIG. 7), the third soft key 32 - (labeled "1 T0 1") implements a function which is not relevant to this invention, the fourth soft key 33 (labeled "HIST") implements a dispatch communication processing function in accordance with one aspect of the present invention and the fifth soft key 34 (labeled "LAST") implements another dispatch communication processing function in accordance with another aspect of the present invention.
Before further describing the functions performed when the HIST and LAST soft keys are selected by the subscriber, some of the background processing performed by the subscriber terminal 14 and the radio unit 12 will be described. FIG. 9 illustrates some of the steps taken by the radio unit 12 and the subscriber terminal 14 each time a communication is received. In step 300, the radio terminal 12 determines whether the transmission is a dispatch communication. To allow the radio terminal 12 to perform step 300, the base station 2 adds control bits to transmitted communication signals on the CCH that match a predetermined sequence when the communication is a dispatch communication. The controller 128 processes each communication signal received by the radio unit 12 to determine the status of the control bits added to the communication signal by the base station 2. The controller 128 compares these control bits to the predetermined sequence which is stored in the controller 128 memory to CA 02214781 1997-09-0~
W 096127950 PCTrUS96/03188 determine whether the received communication signal is a dispatch communication .
If the communication is not a dispatch communication, then the controller 128 exits the processing routine of FIG. 9 to perform other tasks on the receive communication signals. On the other hand, if the transmission is a dispatched communication, then, in step 302, the controller 128 accesses the control information in the communication signal to determine the group and subgroup (or groups and subgroups) that the dispatch communication is directed to. Then in step 304, the controller 128 accesses its memory to determine which groups and/or which subgroups the subscriber is allowed access to and compares this to the information contained in the dispatch communication. In essence the controller 128 determines whether the base station 2 has indicated that the subscriber belongs to the group.
If the subscriber is not permitted access to the dispatch, then the controller 128 exits this process to perform other tasks. If the subscriber is permitted access to the dispatch communication, then the controller 128 checks to see if the scan function is enabled or if the group is the active group. If either the scan function is enable or the group is the active group, the controller 128, in step 306, causes the dispatch communication signal to be sent from the radio unit 12 to the subscriber terminal 14. Otherwise, this process is exited.
CA 02214781 1997-09-0~
W 096/27950 PCTnUS96/03188 In step 308, in the subscriber terminal 14, the microprocessor 50 scans the static RAM 84 which stores various information relating to the past dispatch communications received by the subscriber terminal 14 which have been directed to a group and/or a sub-group that the subscriber has been assigned to. The information stored includes the group and subgroup of the dispatch communication as well as the time of the dispatch communication. The microprocessor 50 determines whether there has been a dispatch communication directed to the same group as the present dispatch communication within a predetermined time period, preferably within the last minute. If the microprocessor 50 determines that there has been a dispatch communication directed to the group within the last minute, the microprocessor 50 exits this routine. If, however, there has been no dispatch sent to this group within the last minute, the microprocessor 50 continues to step 310 to process the dispatch communication. The purpose of step 308 is to prevent rapidly repeated dispatch communications within a group from being stored and displayed to the subscriber thus overwhelming the history function.
In step 310, the dispatch communication is time tagged by the microprocessor 50. The microprocessor 50 can time tag the dispatch either by accessing the real time clock 70 or by utilizing real time clock information that is distributed by the base station 10. After the time tagging, in step 312, the microprocessor 50 stores information associated with the dispatch CA 02214781 1997-09-0~
W O 96/27950 PCTrUS96/03188 communicat,on in the static RAM ~4 The stored information nc!udes the group, subgroups and the time tag associated with the dispatch communication .
In accordance with the present invention, the subscriber can access the stored information concerning dispatch communications by selecting the fourth soft key 33 ~hich is labeled "HIST" in the dispatch op~r2tional mode.
When the HIST key is selected and the subscriber terminal 1~ is in the dispatch operational mode, the microprocessor 50 preferably causes the subscriber terminal 14 to implement a function whereby a history of information concerning or relating to the dispatch communications is displayed to the subscriber. When the HIST soft key 33 is selected, the microprocessor 50 causes the screen illustrated in FIG. 10 to be shown on the display 24. The second line of the display of F~.10, "DISP: CALL
HISTORY", indicates that the subscriber terminal 14 is in the history mode.
Then, on lines 4 to 6, information relating to the last three dispatch communications is displayed. The displayed information includes the group to which each dispatch communication was directed as well as the time that the dispatch communication was received. Also, the subgroup can be displayed. In a preferred embodiment, the subscriber can access the last ten dispatch communications that have information stored in memory by usins the cursor up and cursor down keys 42 and 43 to cause the microprocessor 50 to display additional items from the lists of information that do not fit 2c CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 onto the display 24 The microprocessor 50 causes this information to be displayed by accessing the static RAM 84, retrieving the listing of stored information relating to past dispatch communications, including the associated group and time tags, and sending the information to the display 24 through the display driver circuit 58. Referring to FIG. 10, it can be seen that the subscriber can determine that the last dispatch communications received by the subscriber unit 16 were directed to a variety of groups at a variety of times. In particular, in this example, the display indicates to the subscriber that dispatch communications were sent to Group 3 at 1 1:14 a.m., to Group 9 at 10:58 a.m. and to the Sales Group at 9:12 a.m.
The arrows on iine 4 of FIG. 10 indicate that the user of the radio terminal 22 can scroll up and down the displayed listing of dispatch information by using the keys 43 and 42, respectively. The subscriber terminal 14 of the present invention also enables the subscriber to make a call to the source of any of the dispatch communications. This is accomplished by scrolling to the line where information relating to the desired dispatch is displayed and then pressing a Push-to-Talk tPTT) button on the subscriber unit 16, which is located on the handset 28 of the radio terminal. The selection of the PTT button is recognized by the microprocessor 50 which then causes a main screen to be displayed as well as causing the transmission to occur, as described in the following. Upon CA 02214781 1997-09-0~
W 096127950 PCTnUS96/03188 recognition of the selection of the PTT button, the microprocessor 50 determines which group the subscriber wishes to communicate with by accessing the memory 84 to see which listed dispatch communication the subscriber has selected. This information is passed to the radio unit 12 where the controller 128 formats a communication signal to be directed to the dispatch group which the subscriber selected. Communication signals are then sent by the transmitter 1 12.
In accordance with another aspect of the present invention, the subscriber can easily change the active group of the subscriber unit--displayed on the third line of the display 24 -- to the last group -- the group that was just previously active on the subscriber terminal 14 which is dispiayed just above the LAST softkey -- by selecting the fifth soft key 34 which is labeled "LAST" while in the dispatch operational mode. The last group then becomes what was the active group. As an example, in FIG. 7, 1 2a is the active group and 3c is the last group. If a subscriber selects the LAST softkey, 3c becomes the active group and 1 2a becomes the last group .
Referring to FIG. 11, This function is accomplished in the subscriber terminal 14 by the microprocessor 50. The microprocessor 50 maintains the active group and the last group in memory 84. The microprocessor 50, in step 350, senses the selection of the LAST softkey and then, in step 352, causes the active group and the last active group stored in the memory 84 CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 to be toggled. The microprocessor 50 also causes the groups shown in the display 24 to be toggled. This allows a subscriber to quickiy respond to a dispatch communication from another group.
Referring to FIG. 11, steps 354 to 364 illustrate the other steps performed by the subscriber terminal 14 in implementing the last dispatch function. In step 354, the microprocessor 50 determines when a dispatch is received. When a dispatch is received, in step 356, the microprocessor 50 determines whether the PICK softkey is selected. If the PICK softkey is not selected, the microprocessor 50 causes the group to which the incoming dispatch was directed to become the last group, but the active group is not changed. As an example, if the active group was 9, the last group was 6 and the group to which the incoming dispatch was directed was 3, the last group would be changed to 3, but the active group would remain 9 if the PICK softkey is not selected.
If the PICK softkey is selected, then in step 360, the microprocessor 50 changes the active group to the group to which the incoming dispatch is directed and changes the last group to what was the active group. As an example, if the active group was 9, the last group was 6 and the group to which the incoming dispatch was directed was 3, then the last group would be changed to 9 and the active group would be changed to 3.
If a new group is manually selected by a subscriber using keys on the handset 28, the microprocessor 50 senses the selection in step 362. Then CA 02214781 1997-09-0~
W O 96/27950 PCTnUS96/03188 in step 364, the microprocessor 50 causes the active group to be changed to the manually selected group and causes the last group to be changed to the previously active group. As an example, if the active group was 9, the Iast group was 6 and the manually selected group was 4, then the active group would be 4 and the iast group would be 9. In an alternative embodiment, in step 364, the microprocessor 50 changes the active group to the manuaily selected group but does not change the last grGup. In the above example, the active group would again be changed to 4 but the last group would remain 6.
Referring now to FIG. 12, the steps performed by the controller 128 in the radio unit 12 to implement the priority scan function are illustrated. In step 40~:), the controller 128 determines whether a received signal is a dispatch communications. If it is not, the controller 128 performs other functions. If the received signal is a dispatch communication, then the controller 128 determires in step 402 the group to which the disp~l-;h communication is directed by accessing the control information associated with the communication .
Then in step 404, the controller 128 accesses its memory to determine whether the subscriber unit 6 belongs to the group to which the dispatch communication is directed. Recall that this information is transmitted by a dispatch station 4 through the base station 2 to the subscriber terminal 14. If the subscriber unit 6 finds that it does not belong CA 02214781 1997-09-0~
W O 96/27950 PCTrUS96/03188 to the group, then the controller 128 goes on to perform other functions.
On the other hand, if the subscriber unit 6 finds that it does belong to the group, then the controller 128 checks to see if the scan function is enabled.
Then, if scan is enabled, in step 406, determines whether there is a prior dispatch communication being processed. If there is no prior dispatch communication being processed, then the controller 128 goes on to perform other functions, such as processing the current dispatch communication. If there is a prior dispatch communication being processed, then the controller 128 determines whether the subscriber has selected priority scan or not.
The subscriber selects priority scan from the subscriber terminal 14 by selecting the SETUP button 39 on the keypad 26. During the setup routine, the subscriber will be given the option of enabling or disabling priority scan.
The subscriber terminal 14 transmits control signals to the radio unit 12 that indicate the status of priority scan which are stored in the memory of the radio unit 12. If priority scan is enabled, as part of the setup, the subscriberwill be able to assign a priority level to each group to which he is assigned.
Alternatively, the dispatcher can assign a priority level to the group and transmit that information with the group assignments to the base station 2 and ultimately to the subscriber units 6. In any event, the controller 128, in addition to storing the group assignments, stores the priority level of the group in its memory. In a preferred embodiment, there are two priority ~ Ievels, high and low. In an aiternate embodiment, there are a plurality of CA 02214781 1997-09-0~
W 096127950 PCTrUS96/03188 priority levels which can be assigned to each of the groups.
Referring back to FIG. 12, if priority scan has been disabled, then after step 408 the controller 128 performs other tasks. If, however, priority scan has been enabled, then in step 410, the controller 128 accesses the priority level of the dispatch communication being processed and the priority Ievel of the newly received dispatch communication. The controller 128 then compares these priority levels. If the priority level of the newly received dispatch communication is less than or equal to the priority level of the dispatch communication being processed, then the controller 128 goes on to perform other processing steps. If, however, the priority level of the newly received dispatch communication is greater than the priority level of the dispatch communication being processed, the controller 128 in step 412 causes the newly received dispatch communication to be received by the subscriber on the subscriber terminal 14.
Referring now to FIG. 13, the steps performed by the controller 128 in the radio unit 12 when implementing the scan nuisance delete function are illustrated. In step 440, the controller 128 determines whether the subscriber has enabled the scan nuisance delete function.
In a preferred embodiment, this function is enabled or disabled by the subscriber during the setup mode. As before, the subscriber enters the setup mode by selecting the SETUP button 39 on the keypad 26. During setup, the subscriber will be prompted to either enable or disable the scan CA 02214781 1997-09-0~
W 096127950 PCTrUS96/03188 nuisance function. If the scan nuisance function is enabled, the subscriber will also be prompted to enter one or more groups which are to be deleted and to enter a length of time.
Referring back to FIG. 13, the subscriber terminal 14 transmits control information to the radio unit 12 that indicates whether the scan nuisance delete function is enabled or disabled and if enabled, which group or groups are to be deleted and a length of time the deletion shall be implemented.
The controller 128 receives this information and, in step 442, determines which group or groups to delete from the scan list. In step 444, the controller 128 determines the length of time the group or groups shall be deleted from the scan list.
Next, in step 446, in a preferred embodiment, the controller 128 prompts the subscriber terminal 14 to ask the subscriber for a password that indicates that the subscriber is authorized to enable the scan nuisance delete function. If the subscriber enters an incorrect password, then the controller 128 proceeds to other processing steps. If the subscriber enters a correct password, then in step 448 the controller 128 causes the group or groups selected by the subscriber to be deleted from the scan list for the length of time selected by the subscriber. Then, in step 4~0, the controller 128, after the passage of the selected length of time, causes the deleted group or groups to be added back to the scan list.
~ In accordance with another preferred embodiment, the controller 128 CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 chec~s the priorit~/ of each of the groups seiected for tempor2 ~ deletion.
This priority can be set as previously described -- either by the subscriber or by the dispatcher at the dispatcn station. When the scan nuis2nce delete function is enabled, the controller 128, before deleting any grGups from the scan list, checks the priority of each of the groups selected fcr deietion. If the priority exceeds a predetermined threshold which is preferebly set by the dispatcher at the dispatch station 4, then that group is not de!e~ed from the scan list by the controller 128. Then the controller 128 sends a control signal to the subscriber terminal 14 to inform the subscriber that the group could not be deleted because of its priority level.
Referring to FIG. 14, the steps performed by the subscriber unit 6 to implement the time scan disable function are illustrated. In step 460, the controller 128 determines whether the time scan disable function is enabled or disabled. This function is preferably enabled or disabled by the subscriber in the setup mode, which is entered into by selecting the SETUP button 39.
During the setup mode, if the time scan disable function is enabled, the subscriber can aiso enter a time which will be the time that the scanning function is disabled(Step 462). This information is transmitted to the controller 128 so that the controller 128 can determine the length of time that the scanning function should be disabled for.
In accordance ~vith a preferred embodiment of the present invention, if the subscriber attempts to enable the time scan disable function, the 2~
CA 02214781 1997-09-0~
W 096/27950 PCTrUS96/03188 subscriber terminal 14, in step 464 asks the subscriber for a password. The password is preferably set by the dispatcher from the dispatch station through transmissions through the base station 2. The subscriber then enters the password. If the password is incorrect, the microprocessor 50 in the subscriber terminal 14 determines that the subscriber is not authorized to enable the time scan disable function. If the password is correct, then the microprocessor 50 transmits the instruction to the controller 128 to stop the scanning function.
In step 466, the controller 128, when it receives the instruction from the microprocessor 50, stops scanning the previously described list of groups that the subscriber belongs to. Part of the instruction sent by the microprocessor 50 is the disabling time selected by the subscriber. The controller 128 keeps the scanning function disable for the selected length of time. Then, after the passage of the selected period of time, the controller 128 causes the scanning function to begin again.
It is understood that changes may be made in the above description without departing from the scope of the invention. It is accordingly intended that all matter contained in the above description and in the drawings be interpreted as illustrative rather than limiting.
Claims (8)
1. A mobile subscriber unit for use by a subscriber to a communication system, comprising:
a radio unit located in a first housing, comprising:
receiver means for receiving communications signals;
transmitter means for transmitting communication signals;
an I/O terminal;
processor means for processing the received and transmitted communication signals to provide communication services information through the input/output terminal;
a subscriber terminal located in a second housing, comprising:
an input/output terminal connected to the radio unit input/output terminal;
display means for providing information to the subscriber;
keypad means for entering information and controlling operation of the subscriber unit;
processor means for controlling the display means and the keypad means and for requesting and then processing the communication services information from the radio unit.
a radio unit located in a first housing, comprising:
receiver means for receiving communications signals;
transmitter means for transmitting communication signals;
an I/O terminal;
processor means for processing the received and transmitted communication signals to provide communication services information through the input/output terminal;
a subscriber terminal located in a second housing, comprising:
an input/output terminal connected to the radio unit input/output terminal;
display means for providing information to the subscriber;
keypad means for entering information and controlling operation of the subscriber unit;
processor means for controlling the display means and the keypad means and for requesting and then processing the communication services information from the radio unit.
2. The mobile subscriber unit of claim 1, further comprising second input/output means in the subscriber terminal which is controlled by the subscriber unit processor means.
3 The mobile subscriber unit of claim 2, wherein the second input/output means is a serial port.
4. The mobile subscriber unit of claim 2, further comprising a magnetic swipe device which is connected to the second input/output means and whose operation is controlled by the subscriber terminal processor means.
5. The mobile subscriber unit of claim 2, further comprising a printer which is connected to the second input/output means and whose operation is controlled by the subscriber terminal processor means.
6. The mobile subscriber unit of claim 2, further comprising a bar code scanner which is connected to the second input/output means and whose operation is controlled by the subscriber terminal processor means.
7. The mobile subscriber unit of claim 2, further comprising a serial keyboard which is connected to the second input/output means and whose operation is controlled by the subscriber terminal processor means.
8. The mobile subscriber unit of claim 1, wherein the radio terminal is mounted in the trunk of an automobile and the subscriber terminal is mounted in the passenger compartment of the automobile.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
IL11292795A IL112927A (en) | 1995-03-07 | 1995-03-07 | Subscriber unit for use in a multiple access communication system |
IL112,927 | 1995-03-07 |
Publications (1)
Publication Number | Publication Date |
---|---|
CA2214781A1 true CA2214781A1 (en) | 1996-09-12 |
Family
ID=11067194
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA002214781A Abandoned CA2214781A1 (en) | 1995-03-07 | 1996-03-07 | A subscriber unit for use in a multiple access communication system |
Country Status (6)
Country | Link |
---|---|
EP (1) | EP0813771A4 (en) |
KR (1) | KR19980702770A (en) |
AU (1) | AU5359996A (en) |
CA (1) | CA2214781A1 (en) |
IL (1) | IL112927A (en) |
WO (1) | WO1996027950A1 (en) |
Family Cites Families (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5949633A (en) * | 1982-09-14 | 1984-03-22 | Toshiba Corp | Repeat control system |
JPS59123336A (en) * | 1982-12-28 | 1984-07-17 | インタ−ナシヨナル ビジネス マシ−ンズ コ−ポレ−シヨン | Series keyboard interface system |
US5218188A (en) * | 1989-10-24 | 1993-06-08 | Norand Corporation | Compact hand-held RF data terminal |
US5249302A (en) * | 1987-10-09 | 1993-09-28 | Motorola, Inc. | Mixed-mode transceiver system |
JPH01143529A (en) * | 1987-11-30 | 1989-06-06 | Toshiba Corp | Radio telephone system |
US5134717A (en) * | 1988-11-26 | 1992-07-28 | Motorola, Inc. | Radio telephone with repertory dialer |
JP3104878B2 (en) * | 1990-01-31 | 2000-10-30 | 株式会社東芝 | Wireless communication device |
JP2810774B2 (en) * | 1990-08-10 | 1998-10-15 | 富士通株式会社 | Data transmission method for portable terminal device, and portable terminal device |
DE4301816A1 (en) * | 1993-01-23 | 1994-07-28 | Sel Alcatel Ag | Telecommunication device in motor vehicles |
JP2833397B2 (en) * | 1993-01-29 | 1998-12-09 | 三菱電機株式会社 | Portable machine |
US5522089A (en) * | 1993-05-07 | 1996-05-28 | Cordata, Inc. | Personal digital assistant module adapted for initiating telephone communications through DTMF dialing |
-
1995
- 1995-03-07 IL IL11292795A patent/IL112927A/en not_active IP Right Cessation
-
1996
- 1996-03-07 WO PCT/US1996/003188 patent/WO1996027950A1/en not_active Application Discontinuation
- 1996-03-07 KR KR1019970706177A patent/KR19980702770A/en not_active Application Discontinuation
- 1996-03-07 AU AU53599/96A patent/AU5359996A/en not_active Abandoned
- 1996-03-07 EP EP96910391A patent/EP0813771A4/en not_active Withdrawn
- 1996-03-07 CA CA002214781A patent/CA2214781A1/en not_active Abandoned
Also Published As
Publication number | Publication date |
---|---|
KR19980702770A (en) | 1998-08-05 |
WO1996027950A1 (en) | 1996-09-12 |
IL112927A0 (en) | 1995-06-29 |
EP0813771A4 (en) | 1999-10-20 |
EP0813771A1 (en) | 1997-12-29 |
IL112927A (en) | 1998-07-15 |
AU5359996A (en) | 1996-09-23 |
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Legal Events
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FZDE | Discontinued | ||
FZDE | Discontinued |
Effective date: 20000307 |