KR20070000468A - Digitally enhanced cordless telephone as part of a media access control address - Google Patents

Abstract

A method for mapping a Portable Part MAC Media Access Control Identity PMID of a WMTS wireless medical telemetry device that communicates using Digital Enhanced Cordless Telecommunications DECT comprising the steps of: (a) providing a DECT stack module 200 comprising a portable part PP and a fixed part FP application, wherein said DECT stack represents connections between the PP and FP as a 32 bit number, said PP comprising 20 bits and said FP comprising 12 bits; (b) retrieving the 20 bits of the PP and storing in a memory map in the DECT stack as a DECT PMID; and, (c) calculating a PP id from a lower 20 bits of an Ethernet-MAC- assigned address of the PP and storing same in the memory map in the DECT stack so that the 20 bits of the DECT PMID are mapped 1:1 with the lower 20 bits of the Ethernet MAC address. A memory map in the DECT Stack or external thereto stores the result of the mapping function. ® KIPO & WIPO 2007

Description

DIGITALLY ENHANCED CORDLESS TELEPHONE AS PART OF A MEDIA ACCESS CONTROL ADDRESS}

The present invention relates to an Ethernet networking address. More specifically, the present invention relates to the generation of a map between a radio identifier (DECT ID) and an Ethernet address to allow for the use of DECT in a WMTS or other Ethernet-connected wireless system.

Launched in Europe, digitally enhanced wireless telecommunications (DECT) is used for many different types of applications, such as Patient-Wearable Devices (PWD) in Wireless Medical Telemetry Systems. It has been widely used around the world to provide efficient wireless connectivity. In wireless communications, there are devices that can operate under other protocols and communicate with Ethernet LANs. In such cases, the base station or access point (AP) is known to transmit from one protocol to another, such as from DECT to Ethernet. In particular, there is a need in the prior art to adapt between the DECT identity of a device and an Ethernet Media Access Control (MAC) address.

The DECT system includes one or more base stations or access points (APs), and a DECT fixed portion (FP) using at least one DECT wireless terminal or portable portion (PP). DECT has no limit on the number of base stations and wireless terminals actually allowed. The DECT air interface utilizes one or more of the following: Time Division Multiple Access (TDMA), time division duplex (DDD) and multi-carrier, and characteristic dynamic channel selection and assignment. Dynamic channel allocation allows DECT to adapt itself to changing environmental conditions compared to fixed channel-allocation mechanisms.

1 is an enlarged view of a standard 24-slot frame used in DECT, and 480 bits including a standard slot.

2 shows an essential part of a DECT software module, as modified in accordance with the present invention.

3 illustrates an extended DECT frame for WMTS using a 64 slot frame in accordance with the present invention.

As shown in FIG. 1, the 10 ms TMDA DECT frame 105 includes 24 slots further divided into two groups 107, 108 with 12 slots each. The first 12 slots are for use in forward transmission from the portable portion to the base station by the base station (or fixed portion), while the other 12 slots are used for reverse transmission from the portable portion to the base station. One slot for transmission and one slot for reception are referred to as a "duplex pair". One frame equals 24 slots per second X 480 bits = 11,520 bits = 10ms @ 1,152,000 bits. As shown by enlarged slot 110, each particular slot is 32 bits for synchronization 111, 64 bits for signaling 113 (actually 48 bits for data and 16 of CRC in A-field). Bits, each of the four groups of 80 bits in the B-field 116 each comprising a 64-bit data block followed by a 16-bit CRC.

However, even if the WMTS described herein uses a frame with the same slot size (480 bits) as DECT, the number of slots per frame is 64 (compared to 24 slots of DECT). To allow the use of DECT in WMTS using Ethernet for infrastructure, the prior art lacks a method of generating a map between a radio identifier (eg, DECT ID) and an Ethernet network address.

The present invention provides a mapping between 20-bit DECT PMIDs and Ethernet MAC addresses by using 1: 1 mapping of radio identifiers and low 20 bits of Ethernet addresses. Each portable portion calculates the PP ID from the lower 20 bits of the unique Ethernet address assigned to it at the time of manufacture, and each fixed portion receives the FP ID when the access point starts and registers with the access point controller. The present invention also provides an extended DECT frame for use with WMTS devices by providing a frame using 64 slots.

The following description is provided for purposes of illustration and is not intended to limit the invention to the items shown and described. Those skilled in the art will appreciate that various modifications may be made to the invention within the spirit of the invention and the scope of the appended claims.

Ethernet has its own unique device address, commonly known as a MAC address or Ethernet address, which is designed to ensure that no two machines will come from the same Ethernet address. In addition, to ensure the uniqueness of the address, the user does not have the ability to self-assign an address. Therefore, each controller using Ethernet comes with a factory installed address. To reduce the likelihood that an Ethernet address will be exhausted, 48 bits are allocated for the address. The present invention uses the lower 20 bits of the Ethernet address of each portable portion (PP) to be mapped 1: 1 to a radio identifier, such as a DECT identifier.

2 shows the main parts of the DECT software 200. The DECT software communicates with an access point (AP) or PWD controller, identified by box 250. The DECT software includes a boot loader 205 that loads the digital signal processor 213. The DECT software also has a portable portion (PP) or fixed portion (FP) application 210, and a DECT stack 215 that performs and manages the connection between the portable portion (PP) and the fixed portion (FP) applications. Both the boot loader 205 and the PP or FP application communicate with a patient wearable device (PWD) main board or an access point main board 150. The DECT stack 215 has a slot controller in communication with the radio 217 and a digital signal processor (DSP) 213 used to transmit to various wireless devices.

The standard DECT stack 215 supports 32 bits for the device identifier for the connection between the PP and the FP, with 20 bits assigned to the PP ID and 12 bits assigned to the FP ID. By extending the standard DECT frame for WMTS, it is possible for WMTS devices to use the DECT standard.

Ethernet directly supports the transmission of packets by using medium access control (MAC) addresses in the source and destination fields of the Ethernet packet. The procedure for mapping a DECT PP or FP ID to an Ethernet MAC address is required to transmit the datagram. The wireless module 217 will be used to send wireless communications to the PWD or PP assigned to the access point 250.

One way a DECT ID is mapped to an Ethernet address is to place 20-bits of the PP address of the radio identifier into 20 bits of the lower order of the Ethernet address. The higher order 28 bits of the Ethernet address may be set to an agreed value in the WMTS system.

One consequence of the DECT addressing scheme is that the DECT stack limits the number of access points to 4096 (since 12 bits are assigned to the FP ID). When the access point starts and registers with the access point controller (APC) they will handle the unique set of FP IDs well. The PP will calculate the PP ID from the 20 lower bits of the Ethernet MAC address assigned to it from the time of manufacture. The PP thus effectively uses the Ethernet MAC address and does not require assignment of a second set of addresses.

DECT stack 215 according to the present invention has been modified for use with WMTS by:

(1) WMTS can use an extended DECT frame with 64 slots instead of the usual 24 slots to support a large number of devices at lower data rates.

(2) The WMTS system may use different numbers of RF carriers, and thus different major scan carrier number (PSCN) sequences.

(3) WMTS may support mixed single and dual slot bearers.

3 illustrates an extended DECT frame for the WMTS in accordance with the present invention. The extended DECT frame includes 64 slot periods, the FP can transmit during slots 0-31 of the frame, and the portable portions can transmit during slots 32-63 of the frame. The slot controller, shown in FIG. 2 of the DECT stack, controls slots and radio connections.

Various modifications may be made to the presently claimed invention within the spirit of the invention and the scope of the appended claims. Those skilled in the art understand that the number of bits, which is more preferred for the bottom 20, can be a higher or lower number than that amount. The mapping, of course, will reflect the difference.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an Ethernet networking address, which generates a portable portion identification (PMID) of a wireless medical telemetry device (WMTS) that transmits using digital enhanced cordless telecommunications (DECT). It can be used for the method and the like.

Claims (10)

A method for generating a Portable Partial Identification (PMID) of a Wireless Medical Telemetry Device (WMTS) that communicates using Digital Enhanced Cordless Telecommunications (DECT). (a) providing a DECT stack module 200 comprising a portable portion (PP) or fixed- portion (FP) application, wherein the DECT stack represents the connection between (PP) and (FP) in a 32-bit number Providing a DECT stack module, wherein (PP) comprises 20 and (FP) comprises 12 bits; (b) retrieving 20 bits of (PP) and storing it as a DECT PMID in a memory map in the DECT stack; And (c) calculating a (PP) id from the lower 20 bits of the Ethernet assigned MAC address of (PP) and DECT such that the 20 bits of the DECT PMID are mapped 1: 1 to the lower 20 bits of the Ethernet MAC address. And storing it in a memory map within a stack. 15. A method for generating a portable portion identification (PMID) of a wireless medical telemetry device (WMTS). The method of claim 1, wherein the Ethernet assigned MAC address comprises 48 full bits. 3. The method of claim 2, wherein the DECT stack communicates with an access point and one of a patient-wearable device (PWD) or another portable device. 3. The method of claim 2, wherein the DECT stack comprises a slot controller that controls a wireless module in communication with one or more portable portions. The method of claim 1, wherein the (FP) id is selected when at least one access point starts and registers with an access point controller. 2. The apparatus of claim 1, further comprising: (d) controlling the wireless module to transmit or receive an extended DECT frame modified to include 64 slots for communication with (PP) including a WMTS device. And a portable portion identification (PMID) of the WMTS. 7. The method of claim 6, wherein during the first 32 slots of the 64 extended DECT frames, the (FP) can transmit and receive via a wireless module, and during the second 32 slots of the extended DECT frame, The (PP) is a method for generating a portable portion identification (PMID) of the WMTS, which can transmit and receive via a wireless module. A map for a DECT stack module 200 modified for use with a wireless medical telemetry system (WMTS) device, the DECT stack module comprising a portable portion (PP) and a fixed- portion (FP) software application module. A DECT stack, the DECT stack representing a connection between (PP) and (FP) as a 32-bit number, wherein (PP) comprises 20 bits and (FP) comprises 12 bits, and the map Is: 20 bits (PP) stored in the memory map as a DECT PMID; And the lower 20 bits of the Ethernet assigned MAC address of (PP) stored in memory to allow a 20 bit DECT PMID to be mapped 1: 1 to the lower 20 bits of the Ethernet MAC address. ) Maps for DECT stack modules modified for use with the device. 10. The map of claim 8 wherein the Ethernet-MAC-assigned address with a lower 20 bit selected comprises a total of 48 bits. 10. A map for a DECT stack module modified for use with a wireless medical telemetry system (WMTS) device. . An extended DECT frame for use with a wireless medical telemetry system (WMTS) transmission, the extended frame comprising 64 slots, during the first 32 slots of the 64 extended DECT frames transmitted ( FP) is allowed to transmit and receive via the wireless module, and during the second 32 slots of the extended DECT frame, (PP) is allowed to transmit and receive via the wireless module. Extended DECT frame for use with transmission.