Abstract:
A non-complex low cost communication, navigation and identification system and method for use with moveable or stationery objects on the same frequency without interference. The present invention listens before each transmission and transmits only when there are no other protocols transmitting, thus avoiding communication collisions and supporting high channel load scenarios.

Description:
BACKGROUND OF INVENTION 
   1. Field of the Invention 
   This invention relates to a method and apparatus for relating the geographical position data of one or more moving or stationary objects, to one or more other moving or stationary objects on the same communication frequency without interfering with any other users and, specifically, to a simple identification and geographical location system and method for moving objects (such as boats) that can transmit position data on the same communication channel without interfering with other communication users on the same frequency, even if other users have a different data transmission protocol. 
   2. Description of Related Art 
   Small boats need to be identified, especially because they are poor radar targets. A low cost, non complex type of identification system is needed. It must gracefully coexist with other communication systems with out creating interference. 
   The present invention is a non-complex data communication system that listens on a given RF frequency and transmits own position data only when there are no other user transmissions. The invention listens for a predefined time period (a so called Detection Period) before transmitting. This is long enough to detect any other transmissions. If there are no other signals heard after the detection period, then the present invention can transmit. The system and method can transmit a data packet when the frequency channel is empty. Based on the system, there can not be interference with other transmissions on the same frequency. 
   SUMMARY OF INVENTION 
   A communication method and system to identify and locate moving objects such as boats using a common communication channel and frequency to avoid interference with other users including different data protocols that includes the following steps: 
   (a) Listen in each detection period before sending; 
   (b) Listen on a assigned group frequency and synchronize to any existing data communication traffic; 
   (c) Be polite. If there is energy in the detection period recognized, the channel is occupied. Never transmit when a channel is occupied. Wait to transmit until the communication channel is empty. 
   (d) Send one packet of a fixed duration; 
   (e) Probably operate at lower power in order to reduce interference with other communication protocols. 
   The present invention does not use UTC for any timing, and it has no use of slot numbers, frames, or slot management. The present system, uses a pure RATDMA ALOHA, like system which is common practice. 
   The synchronization system is very simple. All that is necessary is to synchronize a clock oscillator to any received communication. All system transmitted packets must be “short” for a predetermined fixed time. 
   The receiver, transmitter and associated circuitry is mounted in a completely waterproof housing about the size of a handheld flashlight. It is intended to be mounted on a moveable or stationery object, such as a sailboat mast or crab pot buoy as examples of use. 
   The invention has the following components: 
   1. 1 crystal controlled transmitter. 
   2. 1 crystal controlled receiver. 
   3. 1 integral EPFS (electronic position fixing system). 
   4. 1 low powered microcontroller. 
   5. 1 power supply. 
   6. 1 operation indicator 
   Possible modes of operation: 
   1. The unit may sleep much of the time to save power. It uses a manufacturer proprietary intelligent wakeup function to be awake when needed and synchronizes to any other communication protocol units in the area if there are any. 
   2. The unit only transmits when it hears others within its “group.” 
   3. It also only transmits when the desired group is “close” which is a programmable distance. 
   The invention makes very good use of the VDL (VHF Data Link). The system is silent most of the time and during those short periods of transmission time, power usage is low. 
   The system can also be used on a small sailboat much like a radar reflector. In that case, it would be set to report when it hears any other participant in any receivable range. 
   It is an object of this invention to provide a noncomplex communication system for multiple users to transmit data without interference with other transmissions on the same communication channel. 
   And yet still another object of this invention is to provide a multi user communication system on the same frequency which allows users to transmit data to other users without communication interference even if other protocols are using the same communication frequency. 
   And yet still another object of this invention is to provide a communication system that allows moveable objects such as boats to transmit navigation information to other users on the same frequency without interference including the use of other protocols on the same channel. 
   In accordance with these and other objects which will become apparent herein after, the instant invention will now be described with particular reference to the accompanying drawings. 

   
     BRIEF DESCRIPTION OF DRAWINGS 
       FIG. 1  shows a schematic diagram representing many moveable objects. 
       FIG. 2  shows a schematically diagram of moveable objects including different classes of priority and weighting. 
       FIG. 3  shows a block diagram of the present invention. 
   

   DETAILED DESCRIPTION 
   Referring now to the drawings,  FIGS. 1 and 2 , a group of several moving participants  20 ,  21 ,  22 ,  23 ,  24  and  25  are shown that represent participants in a communication system. Each one of the moving participants shown in  FIG. 1  could include a communication device  10  shown in  FIG. 3 . For sake of example, the moveable objects in  FIG. 1  could represent boats or ships and the information that is transmitted in the communication system servicing all the same users indicated by Group II having a similar protocol in accordance with the present invention would allow the transmission of positioning data among the moveable objects or users. Each of the moveable objects and the system employed on board will practice the method of the invention which is to only transmit positioning data to other moveable objects on the same frequency after listening to insure that transmission can be accomplished without interference. So each of the devices on board  10  include a unit for detecting free transmission time within which a transmitter can be activated. 
   Referring now to  FIG. 2  again a group of moveable participants,  20 ,  21 ,  22 ,  23 ,  24 ,  25  are shown. The first group  20  through  24  shows moveable objects represented by II. The participant  25  is represented by I. This drawing represents the fact the communication system can exist where there are two different protocols including Groups I and II that can co-exist with the present invention and still allow the transmission of any type of data among all of the users without interference, although all users Group I and II are on the same frequency channel. 
   Referring now to  FIG. 3 , the overall invention is shown at  10  including an RF radio transmitter  1  and an RF radio receiver  2 . The transmitter can be a one crystal controlled transmitter. The receiver  2  is a one crystal controlled receiver. The system also has a positioning I/O unit  4  that includes a low power microcontroller. The system includes an antenna  8  for transmission and reception of signals. The transmitter  1  and the receiver  2  both use the same antenna  8 . The receiver is connected to the positioning unit and a transmission detector  28 . The system also includes positioning data unit  3  (EPFS) that provides the user&#39;s own position data to transmitter  1  via input  12 . The synchronization unit  6  allows synchronization between the receiver  2  and the transmitter  1  through time basis  5 . The positioning data unit  3  provides own navigation data which is transmitted periodically from transmitter  1  from antenna  8 . In operation the receiver listens for outstanding data transmissions before transmitting the users own data. If other data transmissions are heard the system will not transmit. The system is a polite system and only transmits when there are no other indication of data transmission in the area. The system will listen within a detection period of silence to indicate there is no other data transmission. The presence system is synchronized by the synchronization unit  6  using a oscillator with a fixed period of milliseconds for synchronization. The signal is provided to the time basis  5  it allows for synchronization of transmission from the transmitter  1  during appropriate periods of silence. 
   In system operation, the system is designed to listen on the assigned radio frequency that can include other protocol transmissions. The system will not transmit if there are other transmissions that it hears. It will listen to other traffic especially a higher order protocol. If the channel is occupied, the system will not transmit. If there is a packet occupied, then the system will wait a random number of empty time segments and then transmit in the next available empty time segment. The system sends only one packet, of short duration so that the system cannot spill over into another time segment. Another feature in the system is that the invention could operate at lower power in order to synchronize with other protocols before being heard. 
   The present invention does not require UTC for any timing. The present invention does not have any reference or concept of the slot numbers, frames or slot management. When there is no higher protocol activity detected, it uses a pure RATDMA Aloha system which transmits when there is no other activity within a certain time frame. 
   The synchronization system uses a clock oscillator for synchronization. A typical clock oscillator may have a frequency of 37.5 Hz with a period of 26.67 ms. If there are more than one other protocol targets, a simply system for choosing which targets to synchronize to may be used that may include the average of the closest of targets. Distance correction of timing may also be incorporated. 
   In operation, the present invention could be mounted on a boat probably in an area where there is another protocol using the same frequencies that may have allotted slots for users. Within the allotted slots, there are empty slots. The present invention listens and can only transmit when there is an empty slot available in time. This ensures that the present invention will never interfere with other transmissions belonging to a different protocol. The present invention uses only available empty time slots for transmission. 
   Because the present invention is not time based on UTC time and it is not based on a slot management protocol, the overall system is less complex and much less expensive to manufacture and use. The present invention does not operate in this manner because it forms a separate system that synchronizes too but does not interfere with the other protocol communication systems. 
   Since it is not necessary to maintain a time segment mapping, receivers may be strobed to save power or scanned to give multichannel capability with a single receiver. 
   Some of these “dumb” units may be crab pot buoy makers that do not need to be seen by everybody. By being silent when not needed, they minimize loading on the portion of the VDL. 
   Some, such as crab pot units, may only report when specific ships or groups are heard. (Your crab pot goes quiet and saves power until you approach it. Then it starts reporting.) This reporting could also be dependent on distance, such as not transmitting until a “smarter”unit within 5 miles is heard. 
   The portion of time segments available to this units will be that portion not used by other protocols. This invention is basically a Slotted Aloha system. Maximum throughput for ALOHA systems is generally accepted as being about 18%. Slotted ALOHA systems are about 38%. That is NOT the case in this application. 
   Packets are broadcast to many potential receivers and there is no ACK/NAK reply. Whether a receiver receives a packet depends upon distance and ratio of distance to any colliding packets. Whether the packet gets through depends upon which receiver you refer to, whether there was a collision and the ratio of distance from desired and colliding packets. If the colliding packet is more than twice as far away from the receiver, the desired packet will probably be received correctly because of discrimination (so channel rejection). If the colliding packet is less than half as far from the receiver, the colliding packet will be received correctly. 
   As the packet activity goes up the cell size shrinks, but the closest packets are still the most likely to be received. Although this may seem like a slotted ALOHA method, it has a much higher potential throughput than the slotted ALOHA 38%. This is because of the discrimination capability based upon distance of this application. 
   The odds of receiving a packet correctly, or stated differently, the time between correctly received packets, is strongly related to the proximity of the target transmitter. As targets get closer, they are received better. This is exactly what we want. 
   The instant invention has been shown and described herein in what is considered to be the most practical and preferred embodiment. It is recognized, however, that departures may be made there from within the scope of the invention and that obvious modifications will occur to a person skilled in the art.