Wireless network having body coupled communication for mobile patient monitoring

US 7,978,063 B2
Filed: 12/05/2005
Issued: 07/12/2011
Est. Priority Date: 12/13/2004
Status: Expired due to Fees

First Claim

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1. A wireless network for monitoring a patient, the wireless network comprising:

at least one wearable monitor including;

a physiological condition sensor coupled to the patient to sense and communicate physiological data related to one physiological function of the patient,a first body communication unit that interfaces with the physiological condition sensor to communicate the physiological data over the patient utilizing a near field capacitive body coupled protocol, anda low power radio frequency transmitter; and

a relay system including;

a second body communication unit that receives data from and communicates with the first body communication unit utilizing the near field capacitive body coupled protocol, anda cell phone, the cell phone including the second body communication unit which receives the physiological data transmitted with the body coupled protocol when the cell phone is touching or closely adjacent the patient and a radio frequency receiver which receives the physiological data directly from the wearable monitor low power radio frequency transmitter when the second body communication unit is not touching or closely adjacent the patient, the cell phone communicating the physiological data over a cell phone network or internet to a remote medical monitoring station.

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Abstract

A wireless network for monitoring a patient (10) comprises at least one wearable monitor (12, 70) including a physiological condition sensor (34, 74) coupled to the patient (10) to sense and communicate data related to one physiological function of the patient (10). A first body communication unit (16, 78) interfaces with the at least one wearable monitor (12, 70) to communicate over the patient (10) utilizing a near field capacitive body coupled protocol. A relay system (14, 50 72) includes a second body communication unit (18, 52, 80) that receives data from the at least one wearable monitor (12, 70) and communicates with the first body communication unit (16, 78) utilizing the near field capacitive body coupled protocol. An external communication unit (22) communicates the data to a remote medical monitoring station via a cell phone network or the internet.

250 Citations

17 Claims

1. A wireless network for monitoring a patient, the wireless network comprising:
- at least one wearable monitor including;
  
  a physiological condition sensor coupled to the patient to sense and communicate physiological data related to one physiological function of the patient,a first body communication unit that interfaces with the physiological condition sensor to communicate the physiological data over the patient utilizing a near field capacitive body coupled protocol, anda low power radio frequency transmitter; and
  
  a relay system including;
  
  a second body communication unit that receives data from and communicates with the first body communication unit utilizing the near field capacitive body coupled protocol, anda cell phone, the cell phone including the second body communication unit which receives the physiological data transmitted with the body coupled protocol when the cell phone is touching or closely adjacent the patient and a radio frequency receiver which receives the physiological data directly from the wearable monitor low power radio frequency transmitter when the second body communication unit is not touching or closely adjacent the patient, the cell phone communicating the physiological data over a cell phone network or internet to a remote medical monitoring station.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The wireless network according to claim 1, wherein the physiological condition sensor is one of heart rate, pulse oximetry, respiratory rate, blood pressure, temperature and electrocardiographic activity.
  - 3. The wireless network according to claim 1, wherein the at least one wearable monitor and the relay system include one or more processors programmed to:
    - associate the at least one wearable monitor with the relay system utilizing the near field capacitive body coupled communication protocol; and
      
      ,verify the communication between the wearable monitor and the relay system.
  - 4. The wireless network according to claim 3, wherein the wireless network further includes:
    - an identification component that provides a unique patient identifier with the data.
  - 5. The wireless network according to claim 1, the at least one wearable monitor further includes:
    - an alarm sensor that interfaces with the physiological condition sensor to detect whether the sensed physiological condition is outside of a predetermined threshold and causes the first communication unit to send out a physiological condition message; and
      
      the one or more processors are further programmed to;
      
      cause the first body communication unit to transmit the physiological condition alarm message using the capacitive body coupled protocol to the cell phone when the cell phone via the near field capacitive body coupled communication protocol is available; and
      
      transmit the physiological condition alarm message by radio frequency when the cell phone communication between the wearable monitor and the cell phone via the near field capacitive body coupled communication protocol is not available.
  - 6. The wireless network according to claim 5, wherein the at least one processor is further programmed to associate the at least one wearable monitor by:
    - initializing communication between the first body communication unit associated with the wearable monitor and the second body communication unit associated with the relay system utilizing the near field capacitive body coupled protocol, andestablishing secure communication between the wearable monitor and the mobile alarm relay system by sending an authentication request from the wearable monitor to the mobile alarm relay system and returning an authentication key from the mobile alarm relay system to the wearable monitor.
  - 7. The wireless network according to claim 6, wherein the at least one processor is further programmed to verify the communication by:
    - monitoring the connection between the wearable monitor and the mobile alarm relay system, andgenerating a connection failure alarm if the connection becomes inactive.
  - 8. The wireless network according to claim 7, the at least one wearable monitor further includes:
    - an alarm sensor that interfaces with the physiological condition sensor to detect whether the sensed physiological condition is outside of a predetermined threshold and causes the first body communication unit to send out a physiological condition alarm message and the one or more processors are further programmed to;
      
      transmit the physiological condition alarm message from the first body communication unit to the second body communication unit,with the cell phone, send the physiological condition alarm message over the cell phone network or the interne to the remote medical monitoring station.

9. A wireless network for monitoring a patient, the wireless network comprising:
- at least one wearable monitor including;
  
  a physiological condition sensor coupled to the patient to sense and communicate data related to one physiological function of the patient, anda first body communication unit that interfaces with the physiological condition sensor to communicate over the patient utilizing a near field capacitive body coupled protocol; and
  
  a relay device placed on the patient including;
  
  a second body communication unit that receives data from and communicates with the first body communication unit utilizing the near field capacitive body coupled protocol, andan external communication unit which communicates the data to a remote medical monitoring station; and
  
  the at least one of the wearable monitor and the relay device including at least one processor unit programmed to;
  
  associate the wearable monitor with the relay device including;
  
  initializing communication between the first body communication unit associated with the wearable monitor and the second body communication unit associated with the relay device utilizing the near field capacitive body coupled protocol, andestablishing a secure communication link between the wearable monitor and the device by sending an electronic authentication request from the wearable monitor to the relay device and returning an authentication key from the relay device to the wearable monitor via the near field capacitive body coupled protocol;
  
  verifying the secure communication link between the wearable monitor and the relay device is active including;
  
  monitoring the secure communication link between the wearable monitor and the wearable relay device, andgenerating an alarm in response to the monitored secure communication link becoming inactive; and
  
  triggering an alarm in response to the data communicated by the wearable monitor being outside of a predetermined threshold including;
  
  communicating an alarm message from the wearable monitor to the relay device via the secure communication link, andrelaying the alarm message from the wearable relay device to the remote monitoring station;
  
  wherein the wireless network further includes;
  
  an identification component that provides a unique patient identifier with the data, the identification component communicating with the wearable monitor and the relay device using the near field capacitive body coupled protocol.
- View Dependent Claims (10)
- - 10. The wireless network according to claim 9, wherein the relay device includes a cell phone or PDA which receives near field capacitive body coupled communications from the wearable monitor when the cell phone or PDA is touching or closely adjacent the patient.

11. A wireless network for monitoring a patient, the wireless network comprising:
- at least one wearable monitor including;
  
  a physiological condition sensor coupled to the patient to sense and communicate data related to one physiological function of the patient,a first body communication unit that interfaces with the physiological condition sensor to communicate data related to a physiological function of the patient over the patient utilizing a near field capacitive body coupled protocol, anda first radio frequency transmitter to communicate data related to the physiological function of the patient in a first radio frequency signal, anda relay system including;
  
  a second body communication unit that receives the data from and communicates with the first body communication unit utilizing the near field capacitive body coupled protocol, anda second radio frequency transmitter that transmits the data related to the physiological function of the patient received by the second body communication unit in a second radio frequency signal;
  
  a cell phone or PDA unit which includes a receiver which receives the first and second radio frequency signals from the first and second radio frequency transmitters and retransmits the data on a cell phone network or the internet to a remote medical monitoring station; and
  
  wherein the wearable monitor further includes a unit which causes the data related to one physiological function of the patient to be communicated only via the near field capacitive body coupled protocol when communication between the first and second body communications units has been established and causes the first radio frequency transmitter to communicate the data related to the physiological function of the patient when communication between the first and second body communication units is not available.
- View Dependent Claims (12, 13)
- - 12. The wireless network according to claim 11, wherein the at least one wearable monitor and the relay system include one or more processors programmed to:
    - associate the at least one wearable monitor with the relay system including;
      
      initializing communication between the first body communication unit associated with the wearable monitor and the second body communication unit associated with the relay system utilizing the near field capacitive body coupled protocol, andestablishing secure communication between the wearable monitor and the relay system by sending an authentication request from the wearable monitor to the relay system and returning an authentication key from the relay system to the wearable monitor;
      
      verify the communication between the wearable monitor and the relay system is active including;
      
      monitoring the connection between the wearable monitor and the relay system, andenabling the first radio frequency transmitter to communicate the data related to one physiological function of the patient if the connection becomes inactive.
  - 13. The wireless network according to claim 12, wherein the wireless network further includes:
    - an identification component that provides a unique patient identifier with the data.

14. A method for transmitting patient physiological data across a wireless network, comprising:
- associating a wearable monitor with a mobile alarm relay system;
  
  coupling the wearable monitor having both radio frequency communication and near-field capacitive body coupled communication capabilities to a patient;
  
  monitoring a physiological condition of the patient and generating an alarm when the monitored physiological condition is outside a preselected threshold via the wearable monitor coupled to the patient;
  
  establishing a radio frequency connection between the mobile alarm relay system and an external communication unit;
  
  providing a near-field capacitive body coupled communication link between the wearable monitor and the mobile alarm relay system;
  
  verifying whether the near-field capacitive body coupled communication link between the wearable monitor and the mobile alarm relay system is active;
  
  when the near-field capacitive body coupled communication link between the wearable monitor and the mobile relay system is verified as being active, transmitting the alarm from the wearable monitor to the mobile alarm relay system via the near-field capacitive body coupled communication link and from the mobile alarm relay system to the external communication unit; and
  
  when the near-field capacitive body coupled communication link between the wearable monitor and the mobile relay system is not verified as being active, communicating the alarm from the wearable monitor directly to the external communication unit utilizing the radio frequency communication capability.
- View Dependent Claims (15, 16)
- - 15. The method according to claim 14, wherein communicating the alarm includes:
    - communicating the alarm from the wearable monitor via a first body communication unit that communicates over the patient utilizing a near field capacitive body coupled protocol;
      
      with the mobile alarm relay system, receiving the alarm from the wearable monitor utilizing the near field capacitive body coupled protocol; and
      
      transmitting the alarm from the mobile alarm relay system to the external communication unit over the internet or a cell phone network.
  - 16. The method according to claim 14, wherein the physiological is condition is one of heart rate, pulse oximetry, respiratory rate, blood pressure, temperature and electrocardiographic activity.

17. A method for transmitting medical information within a wireless network, comprising:
- associating a wearable monitor with a mobile alarm relay system including;
  
  initializing communication between a first body communication unit associated with the wearable monitor and a second body communication unit associated with the mobile alarm relay system utilizing a near field capacitive body coupled protocol, andestablishing a secure communication link between the wearable monitor and the mobile alarm relay system by sending an electronic authentication request from the wearable monitor to the mobile alarm relay system via the near field capacitive body coupled protocol and returning an electronic authentication key from the mobile alarm relay system to the wearable monitor via the near field capacitive body coupled protocol,providing a unique patient identifier with the data using an identification component communicating with the wearable monitor and the relay device using the near field capacitive body coupled protocol, andcommunicating with the wearable monitor and the relay device using the near field capacitive body coupled protocol;
  
  verifying the communication between the wearable monitor and the mobile alarm relay system is active including;
  
  monitoring the secure communication link between the wearable monitor and the mobile alarm relay system, andgenerating an alarm if the secure communication link becomes inactive; and
  
  triggering an alarm if the data transmitted by the wearable monitor is outside of a predetermined threshold including;
  
  transmitting an alarm message from the wearable monitor to the mobile alarm relay system, andrelaying the alarm message from the mobile alarm relay system to an external network.

Specification

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Current Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
Original Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
Inventors
Elixmann, Martin J., Baldus, Heribert
Primary Examiner(s)
Lee; Benjamin C
Assistant Examiner(s)
EUSTAQUIO, CAL J

Application Number

US11/720,892
Publication Number

US 20090231125A1
Time in Patent Office

2,045 Days
Field of Search

340/539.12, 340/10.1, 340/870.07
US Class Current

340/539.12
CPC Class Codes

A61B 5/0006   ECG or EEG signals

A61B 5/0028   Body tissue as transmission...

A61B 5/6804   Garments; Clothes

A61B 5/681   Wristwatch-type devices

H04B 13/005   Transmission systems in whi...

Wireless network having body coupled communication for mobile patient monitoring

First Claim

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Abstract

250 Citations

17 Claims

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Wireless network having body coupled communication for mobile patient monitoring

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

250 Citations

17 Claims

Specification

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Solutions

Use Cases

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