摘要:
A measurement device (14) includes a measuring unit (42) for obtaining health related parameters of a patient (12), and a body-coupled communication unit (40) for sending at least measurement results. An identification device (20), associated with the patient, includes a body-coupled communication unit (26) for receiving and sending out the measurement results. A gateway device (72) includes a body-coupled communication unit (78) for receiving patient's measurement results. Additionally, a hierarchical relational deployment model (100) facilitates grouping wireless devices in a healthcare environment into subgroups based on relationships between the devices, and a hierarchical key pre-distribution scheme (110) permits distribution of unique keying material for security domains of respective groups of devices, prior to deploying the devices in a healthcare network. Devices can then execute a handshake protocol by which they identify their deepest common node in the deployment model (100), and employ keying material assigned to that nodes group in the pre-distribution scheme (110) to facilitate granular communication security.
摘要:
A system (10) automatically configures and sets up an ad hoc wireless medical network (40). Wireless peer devices (221, 222, . . . , 22n) each includes a peer BCC interface module (241, 242, . . . , 24n) for authenticating a patient and transmitting device identification of a selected peer device (221, 222, . . . , 22n), and a short-range network interface module (301, 302, . . . , 30n) for setting up communication connection between the peer devices (221, 222, . . . , 22n). An active identification device (28), which is linked to the patient (14), authenticates each selected peer device (221, 222, . . . , 22n) and automatically associates each selected peer device (221, 222, . . . , 22n) with the patient (14). A patient BCC interface module (36), coupled with the patient (14), transmits network parameters from the active identification device (28) to the peer devices (221, 222, . . . , 22n).
摘要:
The invention relates to a method of establishing a wireless communication connection between a source apparatus (20) and the spatially closest target apparatus (12). The source apparatus (20) transmits search signals (21) at an increasing range (Rd), and a communication connection (22) is established with that target apparatus (12) which is the first to be within range of the search signals (21). After the communication connection has been established, the range (Rc) for the actual communication connection (22) is preferably increased. The communication may be realized particularly in accordance with a Bluetooth protocol and may be used in, for example, a patient-monitoring system.
摘要:
A communication system comprises a communications network coupled at least to a terminal unit. The communications network is coupled to a service device which comprises a switching center, a controller, and a data bank. The data bank contains at least a service logical program. A terminal unit generates a first parameter and a second parameter for sending as a single transmission to the service device. The controller extracts a service logical program from the data bank in response to the first parameter. The controller further controls the switching center in response to the second parameter based on the extracted service logical program.
摘要:
The reliable and controlled allocation of network elements particularly medical sensors (2) to a network (4) without prior configuration of the wireless sensors or of the network administration system can be carried out using an allocation unit (1) for allocating network elements (2) to a wireless network (4), which allocation unit (1) comprises a transmitter which transmits, in a user-controlled manner, a code to a first network element (2), which code causes the first network element (2) to transmit its ID together with the code (encoded ID) so that the latter can be received by a second network element (3) which allocates the first network element (2) to its network (4).
摘要:
A medical communication system (10) comprises peer devices (44, 46) which provide medical services which are used for patient monitoring, patient management or other medical procedures involving patients and/or clinicians. A mobile device (12) includes a short-range interface device (22) for discovering peer devices (44, 46) and associated peer devices services (66). A positioning component (14) determines a location of the mobile device (12). An identification component (60) reads a patient identification device (48) and a clinician identification device (50) and identifies a patient (32) and a clinician (30) at the location of the mobile device (12). A visibility manager (120) limits information and services available to the mobile device (12) to current context relevant information and services which are based at least on one of the identity of the patient (32), the identity of the clinician (30), and the identified mobile device location.
摘要:
The reliable and controlled allocation of network elements particularly medical sensors (2) to a network (4) without prior configuration of the wireless sensors or of the network administration system can be carried out using an allocation unit (1) for allocating network elements (2) to a wireless network (4), which allocation unit (1) comprises a transmitter which transmits, in a user-controlled manner, a code to a first network element (2), which code causes the first network element (2) to transmit its ID together with the code (encoded ID) so that the latter can be received by a second network element (3) which allocates the first network element (2) to its network (4).
摘要:
The invention relates to a central control unit (4) for a series of electronic apparatuses such as, for example, a CD player (1), a video recorder (2) or a satellite receiver (3). The electronic apparatuses are connected via a SCART cable to connections (5) of the central control unit (4). The central control unit (4) further comprises interfaces (6a, 6b) to mobile control apparatuses such as a PDA (8) or a PC (7), in which further external control apparatuses such as, for example, a mobile phone (9) can be connected via a network (12). The central control unit (4) translates protocols used for the connections (5) and the interfaces (6a, 6b) and thus provides the possibility of a flexible control of the electronic apparatuses (1, 2, 3).
摘要:
A measurement device (14) includes a measuring unit (42) for obtaining health related parameters of a patient (12), and a body-coupled communication unit (40) for sending at least measurement results. An identification device (20), associated with the patient, includes a body-coupled communication unit (26) for receiving and sending out the measurement results. A gateway device (72) includes a body-coupled communication unit (78) for receiving patient's measurement results. Additionally, a hierarchical relational deployment model (100) facilitates grouping wireless devices in a healthcare environment into subgroups based on relationships between the devices, and a hierarchical key pre-distribution scheme (110) permits distribution of unique keying material for security domains of respective groups of devices, prior to deploying the devices in a healthcare network. Devices can then execute a handshake protocol by which they identify their deepest common node in the deployment model (100), and employ keying material assigned to that nodes group in the pre-distribution scheme (110) to facilitate granular communication security.
摘要:
A patient monitoring system (8) monitors physiological functions of a plurality of patients (12). Each clinician (10) and each patient (12) has an associated identification device (20, 22), which each includes an identification code corresponding to respective clinician and patient. Each identification device (20, 22) includes a respective body-coupled communication device (24, 26) for communicating the identification code to a medical device (14). The clinician (10) activates the medical device (14) which includes a body-coupled communication device (40) including an ID reader (42). The ID reader (42) scans the area to detect whether the clinician identification is present. After the clinician's identification code is read, the medical device (14) is ready to take measurements. The clinician (10) takes the medical device (14) to the patient (12). The ID reader (42) scans the area to detect the patient identification code. The result of the measurement along with the patient identification code is stored in a medical device memory (56) and later transferred to a patient record in a hospital database (70).