Controlled Power-Efficient Operation of Wireless Communication Devices
First Claim
Patent Images
1. A wireless smoke sensor device that functions as part of an in-building wireless sensor system, comprising:
- a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system;
a smoke sensor configured to take smoke measurements;
a controller operatively coupled to the wireless transceiver and the smoke sensor and configured to;
continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode;
periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more smoke measurements measured using the smoke sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and
in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time.
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Accused Products
Abstract
A low cost, robust, wireless sensor that provides an extended period of operability without maintenance is described. The wireless sensors are configured to communicate with a base unit or repeater. When the sensor unit detects an anomalous ambient condition (e.g., smoke, fire, water, etc.) the sensor communicates with the base unit and provides data regarding the anomalous condition. The sensor unit receives instructions to change operating parameters and/or control external devices.
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Citations
54 Claims
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1. A wireless smoke sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a smoke sensor configured to take smoke measurements; a controller operatively coupled to the wireless transceiver and the smoke sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more smoke measurements measured using the smoke sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (2, 3)
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4. A wireless temperature sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a temperature sensor configured to take temperature measurements; a controller operatively coupled to the wireless transceiver and the temperature sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more temperature measurements measured using the temperature sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (5, 6)
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7. A wireless humidity sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a humidity sensor configured to take humidity measurements; a controller operatively coupled to the wireless transceiver and the humidity sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more humidity measurements measured using the humidity sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (8, 9)
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10. A wireless water sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a water sensor configured to take water measurements; a controller operatively coupled to the wireless transceiver and the water sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more water measurements measured using the water sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (11, 12)
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13. A wireless carbon monoxide sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a carbon monoxide sensor configured to take carbon monoxide measurements; a controller operatively coupled to the wireless transceiver and the carbon monoxide sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more carbon monoxide measurements measured using the carbon monoxide sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (14, 15)
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16. A wireless security sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a security sensor configured to take security measurements; a controller operatively coupled to the wireless transceiver and the security sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more security measurements measured using the security sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received, message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (17, 18)
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19. A wireless door motion sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a door motion sensor configured to take door motion measurements; a controller operatively coupled to the wireless transceiver and the door motion sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more door motion measurements measured using the door motion sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (20, 21)
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22. A wireless window breakage sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a window breakage sensor configured to take window breakage measurements; a controller operatively coupled to the wireless transceiver and the window breakage sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more window breakage measurements measured using the window breakage sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (23, 24)
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25. A wireless window motion sensor device that functions as part of an in-building wireless sensor system, comprising:
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a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device, wherein the electronic device and the wireless device are configured to be installed within a building as part of the in-building wireless sensor system; a window motion sensor configured to take window motion measurements; a controller operatively coupled to the wireless transceiver and the window motion sensor and configured to; continuously operate the wireless device in a sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; periodically and temporarily switch the operation of the wireless device from the sleep mode to the awake mode whereby, while in the awake mode, the wireless transceiver is configured to transmit one or more window motion measurements measured using the window motion sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet; and in response to a received message comprising a second checksum and a second authenticity code, alter a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (26, 27)
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28. A method for using a wireless smoke sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more smoke measurements measured using a smoke sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more smoke measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (29, 30)
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31. A method for using a wireless temperature sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more temperature measurements measured using a temperature sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more temperature measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (32, 33)
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34. A method for using a wireless humidity sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more humidity measurements measured using a humidity sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more humidity measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (35, 36)
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37. A method for using a wireless water sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more water measurements measured using a water sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more water measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (38, 39)
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40. A method for using a wireless carbon monoxide device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more carbon monoxide measurements measured using a carbon monoxide sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more carbon monoxide measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (41, 42)
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43. A method for using a wireless security sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more security sensor measurements measured using a security sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more security sensor measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (44, 45)
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46. A method for using a wireless door motion sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more door motion measurements measured using a door motion sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more door motion measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (47, 48)
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49. A method for using a wireless window breakage sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more window breakage measurements measured using a window breakage sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more window breakage measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (50, 51)
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52. A method for using a wireless window motion sensor device that functions as part of an in-building wireless sensor system, comprising:
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continuously operating the wireless device in a sleep mode such that the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery is lower than when the wireless device operates in an awake mode; switching, periodically and temporarily, the operation of the wireless device from the sleep mode to the awake mode; transmitting, by the wireless transceiver, while in the awake mode, one or more window motion measurements measured using a window motion sensor of the wireless device as one or more packets, each packet comprising a first checksum and first authenticity code for use in verifying an authenticity of the packet, wherein; transmission of the one or more window motion measurements are performed using a wireless transceiver capable of wirelessly transmitting and receiving information to and from an electronic device located remotely from the wireless device; and receiving, by the wireless transceiver, a message comprising a second checksum and a second authenticity code; and in response to the received message comprising the second checksum and the second authenticity code, altering a period at which the wireless device switches from the sleep mode to the awake mode such that during a first period the wireless device operates in the sleep mode for a first amount of time before temporarily switching from the sleep mode to the awake mode and that during a second period the wireless device operates in the sleep mode for a second amount of time before temporarily switching from the sleep mode to the awake mode, the second amount of time being greater than the first amount of time. - View Dependent Claims (53, 54)
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Specification