Multiplex communications – Communication techniques for information carried in plural... – Adaptive
Reexamination Certificate
1999-03-12
2002-03-26
Yao, Kwang B. (Department: 2664)
Multiplex communications
Communication techniques for information carried in plural...
Adaptive
C370S475000
Reexamination Certificate
active
06363083
ABSTRACT:
TECHNICAL FIELD
This invention relates to an extension of the Control Area Network (CAN) message protocol to provide routing of messages in an elevator control communication network having up to tens of thousands of nodes.
BACKGROUND ART
It is well known that elevator systems employing multiple elevators typically will have a plurality of elevators arranged in a group, there being several groups within the building. Communication among all the nodes, including nodes on each car, nodes in a group controller and nodes in the building, may be accomplished with a single communications protocol by means of communications coprocessors each having a transmitter and a receiver.
Such systems require a significant amount of communications hardware. Therefore, use of industry standard, readily available, low-cost hardware would be an advantage.
A recent innovation in local area networks is the Control Area Network (CAN) standard, the basic level of which is identified in ISO 11898 and ISO 11519-1. The CAN standard was originally developed to satisfy distributed real-time control needs in automotive applications. As a result, several manufacturers provide very low cost CAN chips which conform to the protocol.
In the CAN protocol, the same identifier field is filtered by each receiving node to determine its interest in any given message. Messages that pass through the filter are received and those that do not are ignored. The CAN protocol is a broadcast type system, where messages are simply laid on the bus, and those receiving nodes which should receive any given messages has filtering adjusted accordingly. Therefore, the number of receiving nodes which can be distinguished by the CAN protocol is limited by the number which may be represented in the identifier field. The CAN protocol identifier field is limited to 11 bits in one format and is limited to 29 bits in another format. Obviously, an 11 bit format limiting the maximum number of distinguished messages to about 2,000 would be woefully inadequate in an elevator application, which typically has as many as tens of thousands of nodes. A protocol useful in an elevator control system must include source and destination identification, which means that two separate identifiers have to be accommodated within the 29 bit identifier field of the CAN protocol. Furthermore, a protocol useful in an elevator control system must have several priorities and network service types accommodated by the identifier field as well. If these are accommodated in a function field of, for instance, five bits, that would leave 24 bits for source node identification and destination node identification; that results in 12 bits to distinguish the various nodes, limiting the system to about 4,000 nodes, which is seriously inadequate.
Examples of elevator control systems which may utilize local area control networks are in commonly owned U.S. Pat. Nos. 5,387,769 and 5,202,540, and an example of an extended CAN protocol message format for use in such systems is illustrated in commonly owned U.S. Pat. No. 5,854,454.
DISCLOSURE OF INVENTION
Objects of the invention include provision of a CAN protocol which will support communications between as many as tens of thousands of nodes, with messages having different functions, and improvements in a CAN protocol for use with elevator systems.
This invention is predicated in part on our discernment that an elevator control system has a relatively small number of nodes which must be able to communicate with each other as well as communicating with a large number of all of the remaining nodes of the system, and there is a second class of nodes, each of which never has to communicate with any of the other nodes in that class, but only have to communicate with nodes of the first class. Thus, the identities of the second class of nodes need never appear in the same message as both a source node identification and a destination node identification.
According to the present invention, a message protocol adapted for use with standard CAN hardware utilizes one portion of the identifier field to identify a first class of nodes, each of which needs to communicate with a substantial number of all of the other nodes of the system, and a second portion of the identifier field to identify a second class of nodes, each of which never has to communicate with another node of said second class, but only needs to communicate with nodes of said first class, said second portion including a sub portion identifying nodes of said first class when the remainder of said second portion has binary bits all of the same binary value, and a message function portion of said identifier field which identifies, among other things, whether each node identifier is identifying the node as a source or a destination. The invention has several aspects. First, it separates the nodes into two classes, a first one of which can identify nodes of the same class as source and destination node in a singular message, and a second class of nodes which never communicate with each other and therefore the identifiers for which will never appear as both source node and destination node in the same message. This permits use of a majority fraction of the identifier field to identify a very large number of nodes of said second class. Second, the invention eliminates allocating portions of the identifier field as source node identifiers and destination node identifiers and instead utilizes far less bit capacity to designate either of the node identification portions as identifying a source node or a destination node. Third, the invention utilizes a small portion of what might otherwise be the second class node identification portion to identify nodes of the first class, when communication is between two nodes of the first class. The invention accommodates use of standard CAN hardware in control systems, such as elevator control systems, in which there are tens of thousands of nodes that do not communicate with each other.
Other objects, features and advantages of the present invention will become more apparent in the light of the following detailed description of exemplary embodiments thereof, as illustrated in the accompanying drawing.
REFERENCES:
patent: 4926420 (1990-05-01), Shimizu
patent: 5202540 (1993-04-01), Auer et al.
patent: 5387769 (1995-02-01), Kupersmith et al.
patent: 5469150 (1995-11-01), Sitte
patent: 5854454 (1998-12-01), Upender et al.
Hnida Martin Georg Walter
Spielbauer Hans-Kilian Josef
Otis Elevator Company
Yao Kwang B.
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