Pulse or digital communications – Spread spectrum – Frequency hopping
Reexamination Certificate
1999-08-31
2003-03-18
Le, Amanda T. (Department: 2734)
Pulse or digital communications
Spread spectrum
Frequency hopping
C375S357000, C340S870110
Reexamination Certificate
active
06535544
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to radio transmission systems in which a plurality of transmitters intermittently transmit short messages indicative of status of sensors associated with the transmitters and to a method of synchronization suitable for using frequency hopping carrier in such systems.
2. Description of the Prior Art
In certain types of radio transmitter systems there exist many transmitters that periodically transmit very short messages to one or more receivers. One example of such systems is burglary and fire alarm systems. In these systems, many transmitters located at different places in a building transmit messages indicative of the status of monitoring sensors to a receiver that collects the data from the sensors. Normally, the transmitters transmit supervisory status messages that are as short as feasible and the period between the transmissions is as long as feasible in order to minimize the average current drain as the transmitters in these systems are typically battery operated. In addition, short and infrequent transmissions lower the probability that the data is lost due to collisions which occur when two or more transmitters transmit at the same time. However, when an alarm condition occurs, a transmitter transmits immediately in order to convey the alarm message with little delay.
Typically, such systems transmit data at a single frequency. Thus, they are susceptible to interference and signal loss due to phenomena known as multipath fading. Consequently, the reliability of such systems is compromised or conversely, the transmitted power has to be increased to overcome the fading which results in larger power drain and shorter battery life. Besides, there usually are regulatory limits that restrict such transmitter power and thus limit the possible compensation by sheer increase of power. Since the multipath effect is highly sensitive to the frequency of the transmitted carrier, the frequency hopping spread spectrum technique has a potential to eliminate these drawbacks. However, frequency hopping systems require long acquisition time and they are typically used in two way communication applications in which all the devices are continuously synchronizing with one master device or with each other using a variety of synchronization methods as shown in some of the following references. In other cases, to ease the synchronization problem, there are employed multichannel receivers that can simultaneously receive signals at many frequencies by making the receiver broadband or by using several receivers at the same time. Generally, those solutions suffer from performance degradation or high cost or both which makes them less desirable for low cost applications that require high reliability such as security alarms.
For example according to U.S. Pat. No. 4,843,638 granted to Walters, a receiver local oscillator has a comb spectrum. This effectively makes it a wide band since each of the frequency range down-converted by the spectral components of the local oscillator will fall in the receiver pass-band. Consequently, the sensitivity of such receiver will be adversely affected.
In another example according to U.S. Pat. No. 5,428,602 granted to Kemppainen, each hopping frequency is monitored by a separate receiver. This is very costly and presently not suitable for low cost systems.
In another example according to U.S. Pat. No. 4,614,945 granted to Brunius et al., a system is described that allows multiple instruments to be monitored and data to be simultaneously transmitted by several radio transponders. However, in order to operate properly, the transponders have to be energized by a RF signal to begin a transmission sequence. This necessitates a radio receiver to be included in the transponder. This makes the system a two-way communications system. Such systems are inherently more complex and costly than one-way communications systems.
In yet another example according to U.S. Pat. No. 5,659,303 granted to Adair, a transmitting apparatus is described that transmits bursts of data continuously at varying time intervals and at varying frequencies. However, the apparatus as described in the preferred embodiment and associated claims, allows identical hopping pattern to be realized in the transmitters. A means is provided to offset the starting point of the variation sequence for different transmitters depending on the transmitter ID, so that the hopping sequences in various transmitters are initially offset in respect to each other. However, due to unavoidable reference frequency drifts that are different in various transmitters, the sequences may slide in respect to each other. Consequently, it is only a matter of time that the patterns of two or more transmitters will be aligned thus producing a condition for persistent collisions of the transmitted data bursts. In addition, Adair does not provide for a receiving apparatus or a method that would allow such transmitted signals with varying frequencies to be received. In the case of Adair's invention, the actual sequence used by a transmitter is not predetermined but instead it may vary with temperature and depends on the transmitter circuit design and manufacturing tolerances, therefore the signal acquisition is made even more difficult.
A serious problem that must be addressed in battery operated systems is to shorten the transmission time as much as possible by making the message preamble as short as possible in order to conserve the battery power. Therefore, the synchronization of the receiver with the transmitters is a difficult task. This problem is exacerbated in some systems such as security alarms that require some messages to be conveyed to the system immediately without waiting for the scheduled transmission time. A related problem in battery operated systems is limitation of the transmitted power to conserve the battery power. The frequency hopping system, if designed properly, can be advantageously used to combat multipath fading that is a major source of transmitted signal attenuation. Consequently, proper method and construction of the receiver is of great importance. The system design and the receiver design should be done to support each other advantageously.
For example according to U.S. Pat. No. 5,428,637 granted to Oliva, et al., a method is described to reduce the synchronization overhead in frequency hopping systems to reduce the burden of re-synchronization before each separate transmission. The method is based on allocation of specific time slots for any unit that desires to transmit data and thus the method requires a two-way communications to accomplish the necessary exchange of series of reservation and acknowledge messages.
Similarly, in yet another example according to U.S. Pat. No. 5,438,329 granted to Gastouniotis et al., a two-way system is used for efficient operation of a telemetry system that is designed to allow operation in the presence of multipath fading and interference.
Patent References:
U.S.
Pat. No.
Inventor
Issued
Title
4,843,638
Walters
June 1989
“Receiver for frequency
hopped signals.”
5,428,602
Kemppainen
June 1995
“Frequency-hopping
arrangement for a radio
communication system.”
4,614,945
Brunius
September 1986
“Automatic/remote RF
instrument reading method
and apparatus.”
5,659,303
Adair
August 1997
“Method and apparatus for
transmitting monitor data.”
5,428,637
Oliva
June 1995
“Method for reducing
synchronizing overhead of
frequency hopping
communications systems.”
5,438,329
Gastouniotis
August 1995
“Duplex bi-directional
multi-mode remote
instrument reading
and telemetry system.”
5,408,506
Mincher
April 1995
“Distributed time
synchronization system
and method.”
4,653,068
Kadin
March 1987
“Frequency hopping data
communication system.”
4,606,041
Kadin
August 1986
“Frequency hopping data
communication system.”
5,390,166
Rohani
February 1995
“Method for recovering a
data signal using diversity
in a radio frequency, time
division multiple access
communication system.”
5,546,422
Yokev
August 1996
“Method for transmit
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