Information access system and method for accessing information in contactless information storage device
First Claim
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1. An information access system for accessing information in a contactless information storage device, comprising:
- an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit for sensing a carrier of an RF signal at a first frequency for detection, and a first transmitter unit for transmitting a response signal at a second frequency different from the first frequency in response to reception of an information request signal;
a first reader/writer device connected to an information processing apparatus, and having a second control unit, a second transmitter unit for cyclically transmitting an information request signal at the first frequency in a first transmission period and going into an inactive state in a second transmission period, under the control of the second control unit, and a second receiver unit adapted to be continuously ready to receive an RF signal at the second frequency; and
a second reader/writer device connected to the information processing apparatus, and having a third control unit, a third transmitter unit for cyclically transmitting an information request signal at the first frequency in the second transmission period and going into an inactive state in the first transmission period, under the control of the third control unit, and a third receiver unit adapted to be continuously ready to receive an RF signal at the second frequency, whereinthe first control unitcontrols, in carrier sensing periods occurring in a carrier sensing cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense a carrier of an RF signal at the first frequency, the carrier sensing cycle being shorter than each of the first and second transmission periods, the carrier sensing cycle being determined according to the timer,causes the first receiver unit to further receive the information request signal when the first receiver unit detects a carrier of an RF signal at the first frequency in any one of the carrier sensing periods, and further causes the first transmitter unit to transmit a response signal at the second frequency that carries a piece of information stored in the memory in response to the information request signal, andcontrols the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between one of the carrier sensing periods and a subsequent one of the carrier sensing periods so that the first receiver unit and the first transmitter unit are in the inactive state, when the first receiver unit detects no carrier in the one carrier sensing period.
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Abstract
In an information access system, a first reader/writer device cyclically transmits an information request signal at a first frequency in a first period and goes into an inactive state in a second period, and a second reader/writer device cyclically transmits an information request signal at the first frequency in the second period and goes into an inactive state in the first period. An active contactless information storage device senses a carrier of an RF signal at the first frequency in predetermined periods occurring in a predetermined cycle shorter than each of the first and second periods.
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Citations
20 Claims
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1. An information access system for accessing information in a contactless information storage device, comprising:
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an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit for sensing a carrier of an RF signal at a first frequency for detection, and a first transmitter unit for transmitting a response signal at a second frequency different from the first frequency in response to reception of an information request signal; a first reader/writer device connected to an information processing apparatus, and having a second control unit, a second transmitter unit for cyclically transmitting an information request signal at the first frequency in a first transmission period and going into an inactive state in a second transmission period, under the control of the second control unit, and a second receiver unit adapted to be continuously ready to receive an RF signal at the second frequency; and a second reader/writer device connected to the information processing apparatus, and having a third control unit, a third transmitter unit for cyclically transmitting an information request signal at the first frequency in the second transmission period and going into an inactive state in the first transmission period, under the control of the third control unit, and a third receiver unit adapted to be continuously ready to receive an RF signal at the second frequency, wherein the first control unit controls, in carrier sensing periods occurring in a carrier sensing cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense a carrier of an RF signal at the first frequency, the carrier sensing cycle being shorter than each of the first and second transmission periods, the carrier sensing cycle being determined according to the timer, causes the first receiver unit to further receive the information request signal when the first receiver unit detects a carrier of an RF signal at the first frequency in any one of the carrier sensing periods, and further causes the first transmitter unit to transmit a response signal at the second frequency that carries a piece of information stored in the memory in response to the information request signal, and controls the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between one of the carrier sensing periods and a subsequent one of the carrier sensing periods so that the first receiver unit and the first transmitter unit are in the inactive state, when the first receiver unit detects no carrier in the one carrier sensing period. - View Dependent Claims (2)
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3. An information access system for accessing information in a contactless information storage device, comprising:
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an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit for sensing carriers of RF signals at first and second different frequencies for detection, and a first transmitter unit for transmitting a response signal at a third frequency different from the first and second frequencies in response to reception of an information request signal; and at least three reader/writer devices, wherein a first reader/writer device of the at least three reader/writer devices is connected to an information processing apparatus, and has a second control unit, a second transmitter unit for going into an inactive state in a first transmission period, cyclically transmitting an information request signal at the first frequency in a second transmission period, and cyclically transmitting an information request signal at the second frequency in a third transmission period, under the control of the second control unit, and a second receiver unit adapted to be continuously ready to receive an RF signal at the third frequency, and a second reader/writer device of the at least three reader/writer devices is connected to the information processing apparatus, and has a third control unit, a third transmitter unit for going into an inactive state in the second transmission period, cyclically transmitting an information request signal at the first frequency in the third transmission period, and cyclically transmitting an information request signal at the second frequency in a period different from the second and third transmission periods, under the control of the third control unit, and a third receiver unit adapted to be continuously ready to receive an RF signal at the third frequency, wherein the first control unit controls, in a first series of carrier sensing periods occurring in a carrier sensing cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense a carrier of an RF signal at the first frequency, and controls, in a second series of carrier sensing periods occurring in the carrier sensing cycle, the first transmitter unit to be in the inactive state and the first receiver unit to be in the active state and sense a carrier of an RF signal at the second frequency, the carrier sensing cycle being shorter than each of the first and second transmission periods, each carrier sensing cycle being determined according to the timer, when the first receiver unit detects a carrier of an RF signal at the first or second frequency in any one carrier sensing period of the first or second series, the first control unit causes the first receiver unit to further receive the information request signal, and causes the first transmitter unit to transmit a response signal at the third frequency that carries a piece of information stored in the memory in response to the information request signal, and when the first receiver unit detects no carrier in one carrier sensing period of the first or second series, the first control unit controls the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between the one carrier sensing period and a subsequent carrier sensing period of the second or first series so that the first receiver unit and the first transmitter unit are in the inactive state.
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4. An information access system for accessing information in a contactless information storage device, comprising:
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an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit for sensing carriers of RF signals at a plurality, m, of different frequencies for detection, where m is an integer, and a first transmitter unit for transmitting a response signal at another frequency different from the m frequencies in response to reception of an information request signal; and a plurality, q, of reader/writer devices, where q is an integer larger than m and is equal to or larger than three, wherein each of the q reader/writer devices has a second transmitter unit for cyclically transmitting an information request signal at corresponding one of the m frequencies in each of m transmission periods of cyclic q transmission periods and going into an inactive state in the other transmission periods of the cyclic q transmission periods, and a second receiver unit adapted to be continuously ready to receive an RF signal at the third frequency, wherein in ones of the cyclic q transmission periods, m reader/writer devices of the q reader/writer devices cyclically transmit respective information request signals at respective different frequencies, during one of the cyclic q transmission periods, the first control unit controls, in carrier sensing periods occurring in a cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense sequentially carriers of RF signals at the m frequencies, the cycle being shorter than the length of the one transmission period divided by m, the carrier sensing cycle being determined according to the timer, and when the first receiver unit detects a carrier of an RF signal at one of the m frequencies in a any one of the carrier sensing periods, the first control unit causes the first receiver unit to further receive the information request signal, and causes, in response to the information request signal, the first transmitter unit to transmit a response signal at the other frequency carrying a piece of information stored in the memory, and when the first receiver unit detects no carrier in one of the carrier sensing periods, the first control unit controls the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between the one carrier sensing period and a subsequent one of the carrier sensing periods so that the first receiver unit and the first transmitter unit are in the inactive state.
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5. An active-type contactless information storage device comprising:
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a memory; a timer for measuring time; a receiver unit for operating to sense a carrier of an information request signal at one of m different frequencies for detection, from one of a plurality, q, of reader/writer devices, in one of q transmission periods, when the active contactless information storage device is located in a communication range of one or more of the plurality of reader/writer devices; a transmitter unit for modulating a carrier with data and transmitting a response signal at a further frequency different from the m frequencies to the one reader/writer device; and a control unit for controlling the receiver unit and the transmitter unit, wherein the control unit controls, in carrier sensing periods occurring in a carrier sensing cycle, the transmitter unit to be in an inactive state and the receiver unit to be in an active state and sense carriers of RF signals at the m frequencies, the carrier sensing cycle being shorter than each of the q transmission periods, the carrier sensing cycle being determined according to the timer, when the receiver unit detects a carrier of an RF signal at one of the m frequencies in any one of the carrier sensing periods, the control unit causes the receiver unit to further receive the information request signal, and causes, in response to the information request signal, the transmitter unit to transmit a response signal at the further frequency carrying a piece of information stored in the memory, when the receiver unit detects no carrier in one of the carrier sensing periods, the control unit controls the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between the one carrier sensing period and a subsequent one of the carrier sensing periods so that the receiver unit and the transmitter unit are in the inactive state, the control unit detects a remaining electric power of the active-type contactless information storage device, and when the detected remaining electric power is lower than a threshold, the control unit extends the carrier sensing cycle into a longer length which is shorter than the one transmission period. - View Dependent Claims (6, 7, 8)
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9. In an information access system, a method for accessing information in a contactless information storage device, the information access system comprising:
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an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit and a first transmitter unit; a first reader/writer device connected to an information processing apparatus, and having a second control unit, a second transmitter unit and a second receiver unit; and a second reader/writer device connected to the information processing apparatus, and having a third control unit, a third transmitter unit and a third receiver unit, the method comprising; under the control of the second control unit, controlling the second transmitter unit of the first reader/writer device to cyclically transmit an information request signal at a first frequency in a first transmission period and to go into an inactive state in a second transmission period, and controlling the second receiver unit to be continuously ready to receive an RF signal at a second frequency, under the control of the third control unit, controlling the third transmitter unit of the second reader/writer device to cyclically transmit an information request signal at the first frequency in the second transmission period and to go into an inactive state in the first transmission period, and controlling the third receiver unit to be continuously ready to receive an RF signal at the second frequency, under the control of the first control unit, controlling, in carrier sensing periods occurring in a carrier sensing cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense a carrier of an RF signal at the first frequency, the carrier sensing cycle being shorter than each of the first and second transmission periods, the carrier sensing cycle being determined according to the timer, when the first receiver unit detects a carrier of an RF signal at the first frequency in any one of the carrier sensing periods, causing the first receiver unit to further receive the information request signal, and causing, in response to the information request signal, the first transmitter unit to transmit a response signal at the second frequency that carries a piece of information stored in the memory, when the first receiver unit detects no carrier in one of the carrier sensing periods, controlling the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between the one carrier sensing period and a subsequent one of the carrier sensing periods so that the first receiver unit and the first transmitter unit are in the inactive state. - View Dependent Claims (10)
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11. In an information access system, a method for accessing information in a contactless information storage device, the information access system comprising:
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an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit and a first transmitter unit, and at least three reader/writer devices, wherein a first reader/writer device of the at least three reader/writer devices is connected to an information processing apparatus, and has a second control unit, a second transmitter unit and a second receiver unit, and a second reader/writer device of the at least three reader/writer devices is connected to the information processing apparatus, and has a third control unit, a third transmitter unit and a third receiver unit, the method comprising; controlling, under the control of the second control unit, the second transmitter of the first reader/writer device to go into an inactive state in a first transmission period, to cyclically transmit an information request signal at a first frequency in a second transmission period, and controlling the second receiver unit to be continuously ready to receive an RF signal at a third frequency different from the first frequency, controlling, under the control of the third control unit, the third transmitter of the second reader/writer device to go into an inactive state in the second transmission period, to cyclically transmit an information request signal at a second frequency in a third transmission period, and controlling the third receiver unit to be continuously ready to receive an RF signal at the third frequency, the third frequency also different from the second frequency, under the control of the first control unit, controlling, in a first series of carrier sensing periods occurring in a carrier sensing cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense a carrier of an RF signal at the first frequency, and controlling, in a second series of carrier sensing periods occurring in the carrier sensing cycle, the first transmitter unit to be in the inactive state and the first receiver unit to be in the active state and sense a carrier of an RF signal at the second frequency, the carrier sensing cycle being shorter than each of the first and second transmission periods, each carrier sensing cycle being determined according to the timer, when the first receiver unit detects a carrier of an RF signal at the first or second frequency in any one carrier sensing period of the first or second series, under the control of the first control unit, causing the first receiver unit to further receive the information request signal, and causing the first transmitter unit to transmit a response signal at the third frequency that carries a piece of information stored in the memory in response to the information request signal, when the first receiver unit detects no carrier in one carrier sensing period of the first or second series, controlling the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between the one carrier sensing period and a subsequent carrier sensing period of the second or first series so that the first receiver unit and the first transmitter unit are in the inactive state.
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12. In an information access system, a method for accessing information in a contactless information storage device, the information access system comprising:
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a first reader/writer device connected to an information processing apparatus, and having a first control unit, a first transmitter unit and a first receiver unit, and a second reader/writer device connected to the information processing apparatus, and having a second control unit, a second transmitter unit and a second receiver unit, the method comprising; allowing the contactless information storage device to sense a carrier of an RF signal from the first reader/writer device and the second reader/writer device in a carrier sensing cycle and go into a sleep mode of operation in a sleep period of time after the sensing, under the control of the first control unit, controlling the first transmitter unit of the first reader/writer device to cyclically transmit an information request signal at a first frequency in a first transmission period longer than the cycle and to go into an inactive state in a second transmission period longer than the cycle, and controlling the first receiver unit to be continuously ready to receive an RF signal at a third frequency in the first and second transmission periods, and under the control of the second control unit, controlling the second transmitter unit of the second reader/writer device to cyclically transmit an information request signal at a second frequency in the second transmission period and to go into an inactive state in the first transmission period, and controlling the second receiver unit to be continuously ready to receive an RF signal at the third frequency. - View Dependent Claims (13, 14)
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15. A non-transitory storage medium storing a program thereon for accessing information in a contactless information storage device, the program being for use in an information access system comprising:
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an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit and a first transmitter unit; a first reader/writer device connected to an information processing apparatus, and having a second control unit, a second transmitter unit and a second receiver unit; and a second reader/writer device connected to the information processing apparatus, and having a third control unit, a third transmitter unit and a third receiver unit, the method comprising; under the control of the second control unit, controlling the second transmitter unit of the first reader/writer device to cyclically transmit an information request signal at a first frequency in a first transmission period and to go into an inactive state in a second transmission period, and controlling the second receiver unit to be continuously ready to receive an RF signal at a second frequency, under the control of the third control unit, controlling the third transmitter unit of the second reader/writer device to cyclically transmit an information request signal at the first frequency in the second transmission period and to go into an inactive state in the first transmission period, and controlling the third receiver unit to be continuously ready to receive an RF signal at the second frequency, under the control of the first control unit, controlling, in carrier sensing periods occurring in a carrier sensing cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense a carrier of an RF signal at the first frequency, the carrier sensing cycle being shorter than each of the first and second transmission periods, the carrier sensing cycle being determined according to the timer, when the first receiver unit detects a carrier of an RF signal at the first frequency in any one of the carrier sensing periods, causing the first receiver unit to further receive the information request signal, and causing, in response to the information request signal, the first transmitter unit to transmit a response signal at the second frequency that carries a piece of information stored in the memory, when the first receiver unit detects no carrier in one of the carrier sensing periods, controlling the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between the one carrier sensing period and a subsequent one of the carrier sensing periods so that the first receiver unit and the first transmitter unit are in the inactive state. - View Dependent Claims (16)
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17. A non-transitory storage medium storing a program thereon for accessing information in a contactless information storage device, the program being for use in an information access system comprising:
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an active-type contactless information storage device having a memory, a timer for measuring time, a first control unit, a first receiver unit and a first transmitter unit, and at least three reader/writer devices, wherein a first reader/writer device of the at least three reader/writer devices is connected to an information processing apparatus, and has a second control unit, a second transmitter unit and a second receiver unit, and a second reader/writer device of the at least three reader/writer devices is connected to the information processing apparatus, and has a third control unit, a third transmitter unit and a third receiver unit, the method comprising; controlling, under the control of the second control unit, the second transmitter of the first reader/writer device to go into an inactive state in a first transmission period, to cyclically transmit an information request signal at a first frequency in a second transmission period, and controlling the second receiver unit to be continuously ready to receive an RF signal at a third frequency different from the first frequency, controlling, under the control of the third control unit, the third transmitter of the second reader/writer device to go into an inactive state in the second transmission period, to cyclically transmit an information request signal at a second frequency in a third transmission period, and controlling the third receiver unit to be continuously ready to receive an RF signal at the third frequency, the third frequency also different from the second frequency, under the control of the first control unit, controlling, in a first series of carrier sensing periods occurring in a carrier sensing cycle, the first transmitter unit to be in an inactive state and the first receiver unit to be in an active state and sense a carrier of an RF signal at the first frequency, and controlling, in a second series of carrier sensing periods occurring in the carrier sensing cycle, the first transmitter unit to be in the inactive state and the first receiver unit to be in the active state and sense a carrier of an RF signal at the second frequency, the carrier sensing cycle being shorter than each of the first and second transmission periods, each carrier sensing cycle being determined according to the timer, when the first receiver unit detects a carrier of an RF signal at the first or second frequency in any one carrier sensing period of the first or second series, under the control of the first control unit, causing the first receiver unit to further receive the information request signal, and causing the first transmitter unit to transmit a response signal at the third frequency that carries a piece of information stored in the memory in response to the information request signal, when the first receiver unit detects no carrier in one carrier sensing period of the first or second series, controlling the active-type contactless information storage device to go into a sleep mode of operation during a non-carrier-sensing period between the one carrier sensing period and a subsequent carrier sensing period of the second or first series so that the first receiver unit and the first transmitter unit are in the inactive state.
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18. A non-transitory storage medium storing a program thereon for accessing information in a contactless information storage device, the program being for use in an information access system comprising:
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a first reader/writer device connected to an information processing apparatus, and having a first control unit, a first transmitter unit and a first receiver unit, and a second reader/writer device connected to the information processing apparatus, and having a second control unit, a second transmitter unit and a second receiver unit, the method comprising; allowing the contactless information storage device to sense a carrier of an RF signal from the first reader/writer device and the second reader/writer device in a carrier sensing cycle and go into a sleep mode of operation in a sleep period of time after the sensing, under the control of the first control unit, controlling the first transmitter unit of the first reader/writer device to cyclically transmit an information request signal at a first frequency in a first transmission period longer than the cycle and to go into an inactive state in a second transmission period longer than the cycle, and controlling the first receiver unit to be continuously ready to receive an RF signal at a third frequency in the first and second transmission periods, and under the control of the second control unit, controlling the second transmitter unit of the second reader/writer device to cyclically transmit an information request signal at a second frequency in the second transmission period and to go into an inactive state in the first transmission period, and controlling the second receiver unit to be continuously ready to receive an RF signal at the third frequency. - View Dependent Claims (19, 20)
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Specification