《IEEE Std 802.15.5-2009 IEEE Recommended Practice for Information technology— Telecommunications and information.pdf》由会员分享,可在线阅读,更多相关《IEEE Std 802.15.5-2009 IEEE Recommended Practice for Information technology— Telecommunications and information.pdf(178页珍藏版)》请在三一文库上搜索。
1、IEEE Std 802.15.5-2009 - IEEE Recommended Practice for Information technology Telecommunications and information exchange between systems Local and metropolitan area networks Specific requirements Part 15.5: Mesh Topology Capability in Wireless Personal Area Networks (WPANs) IEEE 3 Park Avenue New Y
2、ork, NY 10016-5997, USA 8 May 2009 IEEE Computer Society Sponsored by the LAN/MAN Standards Committee 802.15.5 TM IEEE Std 802.15.5-2009 IEEE Recommended Practice for Information technology Telecommunications and information exchange between systems Local and metropolitan area networks Specific requ
3、irements Part 15.5: Mesh Topology Capability in Wireless Personal Area Networks (WPANs) Sponsor LAN/MAN Standards Committee of the IEEE Computer Society Approved 19 March 2009 IEEE-SA Standards Board Abstract: This IEEE recommended practice defines the architectural framework that enables WPAN devic
4、es to promote interoperable, stable, and scaleable wireless mesh topologies and, if needed, to provide the amendment text to the current WPAN standards that is required to implement this recommended practice. Keywords: address assignment, block addressing, broadcast, carrier sense multiple access/co
5、llision avoidance, high-rate WPAN mesh, HR-WPAN mesh, multicast, low-rate WPAN mesh, LR-WPAN mesh, mesh, mesh coordinator, server routing, wakeup interval, multiple hop, multi-hop, local link state, logical tree, portable, portability, power saving, reliable broadcast, sensor network, traceroute, un
6、icast, wireless PAN, WPAN The Institute of Electrical and Electronics Engineers, Inc. 3 Park Avenue, New York, NY 10016-5997, USA Copyright 2009 by the Institute of Electrical and Electronics Engineers, Inc. All rights reserved. Published 8 May 2009. Printed in the United States of America. IEEE and
7、 802 are registered trademarks in the U.S. Patent +1 978 750 8400. Permission to photocopy portions of any individual standard for educational classroom use can also be obtained through the Copyright Clearance Center. iv Copyright 2009 IEEE. All rights reserved. Introduction This introduction is not
8、 part of IEEE Std 802.15.5-2009, IEEE Recommended Practice for Information technology Telecommunications and information exchange between systems Local and metropolitan area networks Specific requirements. This recommended practice provides the architectural framework enabling WPAN devices to promot
9、e interoperable, stable, and scalable wireless mesh topologies. This recommended practice is composed of two parts: low-rate WPAN mesh and high-rate WPAN mesh networks. The low-rate mesh is built on IEEE 802.15.4 MAC, while high rate mesh utilizes IEEE 802.15.3/3b MAC. Common features of both meshes
10、 include network initialization, addressing, and multihop unicasting. In addition, low-rate mesh supports multicasting, reliable broadcasting, portability support, trace route and energy saving function, and high- rate mesh supports multihop time-guaranteed service. Notice to users Laws and regulati
11、ons Users of these documents should consult all applicable laws and regulations. Compliance with the provisions of this standard does not imply compliance to any applicable regulatory requirements. Implementers of the standard are responsible for observing or referring to the applicable regulatory r
12、equirements. IEEE does not, by the publication of its standards, intend to urge action that is not in compliance with applicable laws, and these documents may not be construed as doing so. Copyrights This document is copyrighted by the IEEE. It is made available for a wide variety of both public and
13、 private uses. These include both use, by reference, in laws and regulations, and use in private self- regulation, standardization, and the promotion of engineering practices and methods. By making this document available for use and adoption by public authorities and private users, the IEEE does no
14、t waive any rights in copyright to this document. Updating of IEEE documents Users of IEEE standards should be aware that these documents may be superseded at any time by the issuance of new editions or may be amended from time to time through the issuance of amendments, corrigenda, or errata. An of
15、ficial IEEE document at any point in time consists of the current edition of the document together with any amendments, corrigenda, or errata then in effect. In order to determine whether a given document is the current edition and whether it has been amended through the issuance of amendments, corr
16、igenda, or errata, visit the IEEE Standards Association web site at http:/ieeexplore.ieee.org/xpl/standards.jsp, or contact the IEEE at the address listed previously. For more information about the IEEE Standards Association or the IEEE standards development process, visit the IEEE-SA web site at ht
17、tp:/standards.ieee.org. 标准分享网 w w w .b z f x w .c o m 免费下载 v Copyright 2009 IEEE. All rights reserved. Errata Errata, if any, for this and all other standards can be accessed at the following URL: http:/standards.ieee.org/reading/ieee/updates/errata/index.html. Users are encouraged to check this URL
18、 for errata periodically. Interpretations Current interpretations can be accessed at the following URL: http:/standards.ieee.org/reading/ieee/interp/ index.html. Patents Attention is called to the possibility that implementation of this recommended practice may require use of subject matter covered
19、by patent rights. By publication of this recommended practice, no position is taken with respect to the existence or validity of any patent rights in connection therewith. The IEEE is not responsible for identifying Essential Patent Claims for which a license may be required, for conducting inquirie
20、s into the legal validity or scope of Patents Claims or determining whether any licensing terms or conditions provided in connection with submission of a Letter of Assurance, if any, or in any licensing agreements are reasonable or non-discriminatory. Users of this recommended practice are expressly
21、 advised that determination of the validity of any patent rights, and the risk of infringement of such rights, is entirely their own responsibility. Further information may be obtained from the IEEE Standards Association. Participants At the time this recommended practice was completed, the IEEE P80
22、2.15 Working Group had the following officers: Dr. Robert F. Heile, Working Group Chair Rick Alfvin, Working Group Vice Chair Patrick Kinney, Working Group Vice Chair including but not limited to, home and industrial automation and control, security and environmental monitoring, situational awarenes
23、s and asset 3 Information on references can be found in Clause 2. IEEE Std 802.15.5-2008 Part 15.5: Mesh Topology Capability in Wireless Personal Area Networks (WPANs) 8 Copyright 2009 IEEE. All rights reserved. tracking, automatic meter reading, personal health monitoring, and etc. Example use case
24、s could be as follows: a) A RF remote control that can control all AV devices in all rooms of a residential house without line of sight requirement b) Wireless light switches in a commercial building, e.g. a department store, control lights of the entire floor, with the capability of grouping lights
25、 in different ways in a dynamic manner and turn them on/off with one push of the button c) Smart utility meters form a mesh network, collect meter reading data and send the data to utility companies through gateways In Clause 5 of this document, the terms mesh network and PAN are used alternatively
26、to refer to the mesh network since all devices in a mesh network share the same PAN ID. In other words, inter-PAN communication is not supported in the current version of the standard. The reference model of low rate WPAN mesh is illustrated in Figure 2. In the data plane, the WPAN Mesh Sublayer res
27、ides between the Service Specific Convergence Sublayer (SSCS) of IEEE Std 802.2-1998 Logical Link Control (LLC) and the IEEE Std 802.15.4-2006 Media Access Control (MAC) Sublayer. Mesh Sublayer provides services to the next higher layer via Mesh Service Access Point (Mesh SAP). For implementers to a
28、dd mesh function to the existing low rate WPAN applications with the least effort, the Mesh SAP is made almost identical to the MCPS SAP. In the management plane, the mesh sublayer management entity (MHME) resides between the application management entity (AME) and the MAC layer management entity (M
29、LME). MHME also interfaces with the mesh sublayer at the same level. As a reference, the device management entity (DME) that has access and control to all layers is also shown in the figure. However, the specifications of both AME and DME are beyond the scope of this document. 802.2 LLC (SSCS) MESH
30、SAP MESH Sublayer MCPS SAP MAC Common Part Sublayer PD SAP PHY Layer Application Management Entity (AME) MHME SAP MHME MLME SAP MLME PLME SAP PLME Device Management Entity (DME) Figure 2 The reference model for low-rate WPAN mesh 标准分享网 w w w .b z f x w .c o m 免费下载 IEEE Std 802.15.5-2008 Part 15.5: M
31、esh Topology Capability in Wireless Personal Area Networks (WPANs) 9 Copyright 2009 IEEE. All rights reserved. 5.2 Mesh service description The mesh sublayer provides two types of services, the mesh data service and the mesh management service, to the next higher layer via two corresponding service
32、access points, the mesh SAP and MHME SAP. There is also an internal interface between the mesh sublayer and the MHME allowing MHME to utilize the mesh sublayer data service. On the other hand, the mesh sublayer may also need to get information from MHME through this internal interface to compose mes
33、h sublayer data frames. 5.2.1 Mesh data service The function of the mesh sublayer data service is to support the transport of application protocol data units (APDUs) between peer application entities residing at different devices that can be multiple hops away from each other. As described in 5.1, t
34、he mesh data service primitives are very similar to the MCPS SAP primitives. The implementers should pay careful attention to the differences between them. Table 1 lists the primitives supported by the mesh SAP. Table 1 Mesh SAP primitives MESH SAP primitives Request Confirm Indication MESH-DATA 5.2
35、.1.1 5.2.1.2 5.2.1.3 MESH-PURGE 5.2.1.4 5.2.1.5 5.2.1.1 MESH-DATA.request The MESH-DATA.request primitive requests the transfer of an SPDU (SSCS protocol data unit), from a local SSCS entity to one or more peer SSCS entities. It is very similar to the MCPS-DATA.request primitive at MAC layer. The se
36、mantics of the MESH-DATA.request primitive is as follows: MESH-DATA.request ( SrcAddrMode, DstAddrMode, DstAddr, mhsduLength, mhsdu, mhsduHandle, AckTransmission, McstTransmission, BcstTransimission, ReliableBcst ) Table 2 specifies the parameters for the MESH-DATA.request primitive. IEEE Std 802.15
37、.5-2008 Part 15.5: Mesh Topology Capability in Wireless Personal Area Networks (WPANs) 10 Copyright 2009 IEEE. All rights reserved. Table 2 MESH-DATA.request parameters Name Type Valid range Description SrcAddrMode Integer 0x000x03 The source addressing mode for this primitive and subsequent MHPDU.
38、This value can take one of the following values: 0x00 = no address (addressing fields omitted). 0x01 = reserved. 0x02 = 16-bit short address. 0x03 = 64-bit extended address. DstAddrMode Integer 0x000x03 The destination addressing mode for this primitive and subsequent MHPDU. This value can take one
39、of the following values: 0x00 = no address (addressing fields omitted). 0x01 = reserved. 0x02 = 16-bit short address. 0x03 = 64-bit extended address. DstAddr Device address As specified by the DstAddrMode parameter The device address of the entity, or entities in the case of multicast and broadcast,
40、 to which the MHSDU is being transferred. mhsduLength Integer (aMaxMACSafePayloadSize - meshcMaxMeshHeaderLength ) The number of octets contained in the MHSDU to be transmitted by the mesh sublayer entity. mhsdu Set of octets The set of octets forming the MHSDU to be transmitted by the mesh sublayer
41、 entity. mhsduHandle Integer 0x000xff The handle associated with the MHSDU to be transmitted by the mesh sublayer entity. AckTransmission Boolean TRUE, FALSE This field is set to TRUE if an acknowledgement is required from the receiver; otherwise, it is set to FALSE. McstTransmission Boolean TRUE, F
42、ALSE This field is set to TRUE if the data is to be multicast; otherwise, it is set to FALSE. BcstTransimission Boolean TRUE, FALSE This field is set to TRUE if the data is to be broadcast; otherwise, it is set to FALSE. ReliableBcst Boolean TRUE, FALSE This field is set to TRUE if reliable broadcas
43、t is required; otherwise, it is set to FALSE. It is meaningful only when BcstTransmission is set to TRUE. 标准分享网 w w w .b z f x w .c o m 免费下载 IEEE Std 802.15.5-2008 Part 15.5: Mesh Topology Capability in Wireless Personal Area Networks (WPANs) 11 Copyright 2009 IEEE. All rights reserved. The MESH-DAT
44、A.request primitive is generated by a local SSCS entity when an SPDU is to be transferred to a peer SSCS entity. On receipt of the MESH-DATA.request primitive, the mesh sublayer of a device first looks at the value of the DstAddrMode field. If the value indicates a 64-bit extended address is used (0
45、x03), the data may be sent to its one-hop neighbors only. Therefore, the mesh sublayer should compose an MCPS-DATA.request and send it to the MAC layer. In this case, the mesh sublayer simply passes the request from the higher layer without calling the mesh sublayer functions. b0 of the TxOptions fi
46、eld of the MCPS-DATA.request primitive should reflect the value of AckTransmission; it is set to one when the AckTransmission field is set to TRUE and set to zero when the AckTransmission field is set to FALSE. Fields b1 and b2 of the TxOptions of the MCPS-DATA.request primitive should always be set
47、 to zero. The rest of the transmit option fields, McstTransmission, BcstTransmission, and ReliableBcst, are created to indicate to the mesh sublayer the transmission mode of the data. Therefore they are only meaningful to the mesh sublayer and should not be reflected in the MCPS-DATA.request primiti
48、ve. If the value of the DstAddrMode field indicates a 16-bit short address is used (0x02) the destination could be either a one-hop neighbor or a device multiple hops away. Therefore, the device should first determine whether the destination is one of its one-hop neighbors by looking at the DstAddr
49、and searching the destination address in its neighbor list as illustrated in Table 46. If it is, the mesh sublayer should compose an MCPS-DATA.request and send it to the MAC layer as described above. If the destination is not a one-hop neighbor, the mesh sublayer should determine the next hop in the mesh network to route the data message to its final destination. The mesh sublayer should first compose an MHPDU to transmit the SPDU received from SSCS as described in 5.3.2.1. The mesh sublayer should then look up the next hop toward the d