Method for establishing a telecommunications system for patient monitoring
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-005/00
G06F-019/00
G08B-021/02
G08B-025/00
H04W-004/20
A61B-005/1455
H04W-084/18
출원번호
US-0907981
(2007-10-19)
등록번호
US-9949641
(2018-04-24)
발명자
/ 주소
Smith, Guy A.
Oswald, Matthew T.
Brown, Matthew L.
Ellis, Matthew E.
출원인 / 주소
SMITHS MEDICAL ASD, INC.
대리인 / 주소
Woo, Louis
인용정보
피인용 횟수 :
0인용 특허 :
28
초록▼
A wireless network having an architecture that resembles a peer-to-peer network has two types of nodes, a first sender type node and a second receiver/relay type node. The network may be used in a medical instrumentation environment whereby the first type node may be wireless devices that could moni
A wireless network having an architecture that resembles a peer-to-peer network has two types of nodes, a first sender type node and a second receiver/relay type node. The network may be used in a medical instrumentation environment whereby the first type node may be wireless devices that could monitor physical parameters of a patient such as for example wireless oximeters. The second type node are mobile wireless communicators that are adapted to receive the data from the wireless devices if they are within the transmission range of the wireless devices. After an aggregation process involving the received data, each of the node communicators broadcasts or disseminates its most up to date data onto the network. Any other relay communicator node in the network that is within the broadcast range of a broadcasting communicator node would receive the up to date data. This makes it possible for communicators that are out of the transmitting range of a wireless device to be apprized of the condition of the patient being monitored by the wireless device. Each communicator in the network is capable of receiving and displaying data from a plurality of wireless devices.
대표청구항▼
1. A method of disseminating information relating to physical attributes of patients, comprising: associating with a patient at least one patient monitoring device having at least one sensor working cooperatively with at least a transmitter;detecting at least one physical attribute from the patient
1. A method of disseminating information relating to physical attributes of patients, comprising: associating with a patient at least one patient monitoring device having at least one sensor working cooperatively with at least a transmitter;detecting at least one physical attribute from the patient using the sensor;transmitting from the patient monitoring device patient data corresponding to the one detected physical attribute out to a device transmission area;providing a plurality of mobile communicators each having a transceiver adapted to receive data transmitted from said patient monitoring device and from other mobile communicators, wherein each of the plurality of mobile communicators has a predetermined broadcast range for broadcasting and receiving data and is adapted to broadcast data stored therein out to its corresponding broadcast range for reception by all communicators that are within its broadcast range;wherein when one communicator of said plurality of communicators moves to within the device transmission area of said one patient monitoring device, the patient data transmitted from the patient monitoring device is received by said one communicator;said one communicator comparing patient data of the one patient, if any, previously stored in said one communicator with the received patient data;storing the more recent of the received patient data and the previously stored patient data as updated patient data in said one communicator; andbroadcasting the updated patient data to its broadcast range;wherein any one to multiple of the plurality of mobile communicators not located within the device transmission area of the patient monitoring device but located within the broadcast range of said one communicator are adapted to receive the updated patient data from said one communicator so that the users of said one communicator and said any one to multiple communicators that have received the patient data from said one communicator are able to monitor the physical attribute of the patient. 2. Method of claim 1, further comprising: broadcasting the patient data from the communicators that have received the patient data to their respective broadcast ranges so that other communicators that are located within the respective predetermined broadcast ranges of the broadcasting communicators are adapted to receive the patient data;wherein the other communicators, after updating the patient data, transmit the updated patient data out to their respective broadcast ranges;wherein the physical attribute of the patient is adapted to be monitored by the respective users of all of the communicators that are in receipt of the patient data. 3. Method of claim 1, further comprising: providing a memory in each of said communicators;storing in the memory in each of said communicators the patient data of the one patient said each communicator has received; andcomparing the patient data of the one patient that is stored in the memory of said each communicator with the patient data said each communicator has received for the one patient and storing the more up to date data of the one patient as updated data for the one patient. 4. Method of claim 1, wherein said patient monitoring device comprises an oximeter having a transceiver including said transmitter; and wherein the patient is associated with the oximeter by wearing the oximeter. 5. Method of claim 1, wherein each of said communicators comprises an oximeter having a radio transceiver adapted to both receive and transmit signals within the broadcasting range of said each communicator, said each communicator including at least one memory for storing the patient data; and wherein said each communicator is adapted to move from outside to within the device transmission area. 6. Method of claim 1, further comprising: assigning to said one patient monitoring device and each of said plurality of communicators respective synchronized time slots for reception and transmission operations so that time scheduled communications without interference are effected among said patient monitoring device and the plurality of communicators. 7. A method for communicating information relating to physical attributes of patients, comprising: providing multiple patient monitoring devices each having sensor means for detecting at least one physical attribute from a patient and a transmitter for transmitting the detected physical attribute;associating the multiple patient monitoring devices with corresponding ones of a plurality of patients;providing a plurality of mobile communicators each having a transceiver adapted to receive patient data transmitted from any of the patient monitoring devices and to communicate with other communicators, the transceiver for each of the plurality of communicators having a predetermined broadcast range so that only those communicators that are located within the broadcast range of said each communicator is in communication with said each communicator;locating at least one of said communicators to the transmission area of a corresponding one of said patient monitoring devices being used to detect the physical attribute of its associated patient;effecting said one communicator to receive the transmitted patient data from its corresponding one patient monitoring device;if there is patient data of the patient associated with said one patient monitoring device previously stored in said one communicator, updating the stored patient data with the received patient data if the received patient data is more recent than the stored patient data;effecting said one communicator to broadcast the most recent patient data out to its broadcast range so that any to multiple other communicators that are located within the broadcast range of the said one communicator but not within the transmission area of the one patient monitoring device are adapted to receive the patient data from said one communicator;wherein the physical attribute of the one patient is adapted to be monitored by the users of the one communicator and the any to multiple other communicators that are in receipt of the patient data of the one patient. 8. Method of claim 7, further comprising: effecting other communicators located within the broadcast range of said one communicator to broadcast the received patient data received from said one communicator, after updating if needed, out to their respective broadcast ranges. 9. Method of claim 7, further comprising: sending the patient data of the patient associated with said one patient monitoring device to a remote communicator that is located out of the range of the device transmission area of said one patient monitoring device by ensuring that said remote communicator is within the broadcast range of a given communicator located within the device transmission area of said one patient monitoring device and is in receipt of the patient data from said any one patient monitoring device, or is telecommunicatively linked to said given communicator indirectly via at least an other communicator so that a telecommunications path is established between said given communicator and said remote communicator. 10. Method of claim 7, wherein each of said communicators comprises a memory table for storing the respective patient data of the plurality of patients, the method further comprising: updating the respective patient data, if any, of the plurality of patients stored in the memory table of said one communicator with the received patient data, provided that the received patient data is more up to date than the patient data previously stored in the memory table; andbroadcasting the memory table of said each communicator as a memory table message out to its transceiving area so that other communicators movably located within the broadcast range of said each communicator are adapted to receive the memory table message and the users of the other communicators in receipt of the memory table message are able to monitor the respective physical attributes of the updated patient data of the patients associated with the memory table. 11. Method of claim 7, wherein each of said multiple patient monitoring devices comprises an oximeter having a transceiver including said transmitter; and wherein said each oximeter is worn by its associated patient. 12. Method of claim 7, wherein each of said communicators comprises an oximeter having a transceiver adapted to both receive and transmit signals within its transceiving area, said each communicator including a memory for storing the patient data; further comprising: storing patient data in the memory of said one communicator;updating the stored patient data with the received patient data; andstoring the updated patient data in the memory. 13. Method of claim 7, further comprising: time synchronizing each of said multiple patient monitoring devices and each of said plurality of communicators with a communications schedule for the transmission, reception and/or broadcasting of signals and/or data. 14. A method for enabling remote monitoring of physical attributes of patients, comprising: associating with a patient at least one sensor means for detecting at least one physical attribute of the patient, the sensor means including a transceiver to transmit the detected physical attribute as patient data out to a transmission area of the sensor means;providing a plurality of mobile communicators each adapted to wirelessly communicate with the other communicators within a corresponding broadcast range;providing one mobile communicator having a transceiver adapted to receive the patient data transmitted from the sensor means when located within the transmission area of the sensor means, the transceiver of said one communicator having a predetermined broadcast range, said one communicator adapted to communicate with all of the other communicators of the plurality of communicators that are located within the broadcast range of said one communicator;wherein said one communicator, when in receipt of the patient data, compares the patient data received from the sensor means with patient data of the patient, if any, previously stored in a memory and stores the most recent of the compared patient data as updated patient data in the memory, the memory adapted to receive and aggregate data from the patient at different times;wherein said one communicator transmits the updated patient data to its broadcast range;wherein when any one to multiple of the plurality of other communicators are movably located to within the broadcast range of said one communicator, the any to multiple other communicator are adapted to receive the updated patient data from said one communicator;wherein the respective users of said one and the any to multiple other communicators each can remotely monitor the physical attribute of the patient by looking at a display at each of said one and the any to multiple other communicators. 15. Method of claim 14, wherein each of the plurality of communicators has a memory for storing patient data for at least one patient, wherein the memory in each of the plurality of communicators comprises a memory table for storing the respective patient data of a plurality of patients, the method further comprising: updating the respective patient data relating to each of the plurality of patients stored in the memory table when new patient data of each of the plurality of patients is received; andbroadcasting the memory table of said each communicator as a memory table message out to the broadcast range of said each communicator. 16. Method of claim 14, further comprising: assigning said sensor means and the plurality of communicators respective synchronized time slots for the reception, transmission and/or broadcasting of signals and/or data therefor; andeffecting time scheduled communications among said sensor means and the plurality of communicators per the synchronized time slots. 17. Method of claim 14, wherein said one communicator is maintained at a fixed location relative to the patient. 18. Method of claim 14, further comprising: locating a remote communicator out of the transmission area of the sensor means to within the broadcast range of said one communicator so that the remote communicator is able to receive the updated patient data broadcast by said one communicator. 19. Method of claim 14, wherein said one and each of the plurality of other communicators is adapted to send out text messages and has a display adapted to display patient data and text messages, further comprising: transmitting a text message to its broadcast range by the one communicator;receiving and displaying the text message by any of the plurality of other communicators that is located within the broadcast range of the one communicator so that the text message is adapted to be read by the users of those other communicators in receipt of the text message. 20. Method of claim 14, wherein the sensor means comprises an oximeter that measures the SPO2 of the patient, and wherein said one and each of the other communicators have means to display at least the received patient data, the method further comprising: displaying the patient data as SPO2 data on at least each of the plurality of other communicators in receipt of the patient data so that the users of those other communicators can monitor the SPO2 of the patient.
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이 특허에 인용된 특허 (28)
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