Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: A system and method for determining a time of an event participant passing a detection point having a participant identifier number by a timing system coupled to an RFID tag reader in proximity to at a monitored point and receiving RFID tag read times and coupled to a portable device with a transceiver and a location detector for selectively receiving a participant number read, the timing system receiving the geographic location of the handheld device, the handheld read participant number and a handheld time, determining that the received RFID tag read times timing system are not usable times and determining a time of passing of the participant by the detection point by determining a delta time between the proximity detector and the handheld device and an adjusted time of participant passing based on the determined delta time and handheld time.

Abstract: A system and method for determining and tracking a location of a participant traveling along a route wherein the participant being tracked with a radio frequency tag using a radio frequency tag reader and a timing system, the system includes a location device associated with the tag and has a location data receiver for receiving location information from a location providing source, and a wireless communication interface and time stamps each received location information, and transmits tag location data over the wireless interface, and a location detection device that is in wireless communication with the location device receives the transmitted tag location data, and transmits the received location data to the timing system, with the timing system associating the received location data with the tag number as provided by the tag reader provided tag reads of the tag associated with the location device.

Abstract: A system and method for determining a time of an event participant passing a detection point having a participant identifier number by a timing system coupled to an RFID tag reader in proximity to at a monitored point and receiving RFID tag read times and coupled to a portable device with a transceiver and a location detector for selectively receiving a participant number read, the timing system receiving the geographic location of the handheld device, the handheld read participant number and a handheld time, determining that the received RFID tag read times timing system are not usable times and determining a time of passing of the participant by the detection point by determining a delta time between the proximity detector and the handheld device and an adjusted time of participant passing based on the determined delta time and handheld time.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: A system and method for determining and tracking a location of a participant traveling along a route wherein the participant being tracked with a radio frequency tag using a radio frequency tag reader and a timing system, the system includes a location device associated with the tag and has a location data receiver for receiving location information from a location providing source, and a wireless communication interface and time stamps each received location information, and transmits tag location data over the wireless interface, and a location detection device that is in wireless communication with the location device receives the transmitted tag location data, and transmits the received location data to the timing system, with the timing system associating the received location data with the tag number as provided by the tag reader provided tag reads of the tag associated with the location device.

Abstract: A system and method for determining a time of an event participant passing a detection point having a participant identifier number by a timing system coupled to an RFID tag reader in proximity to at a monitored point and receiving RFID tag read times and coupled to a portable device with a transceiver and a location detector for selectively receiving a participant number read, the timing system receiving the geographic location of the handheld device, the handheld read participant number and a handheld time, determining that the received RFID tag read times timing system are not usable times and determining a time of passing of the participant by the detection point by determining a delta time between the proximity detector and the handheld device and an adjusted time of participant passing based on the determined delta time and handheld time.

Abstract: Systems and methods for determining a time of a passing at a reference line of an RFID tag traveling along a route and a time of lapsing of the tracked RFID tag on the route, the system have a plurality of spaced apart tag reader systems for wirelessly obtaining tag reads, wherein at least one of the tag reader systems is space apart from the reference line. The timing system receives a plurality of tag reads and determines the time of passing of the RFID at the reference line responsive to the plurality of received tag read messages received from the plurality of tag reader systems.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: A system and method for determining and tracking a location of a participant traveling along a route wherein the participant being tracked with an RFID tag using an RFID tag reader and a timing system, the system includes a location device associated with the RFID tag and has a location data receiver for receiving location information from a location providing source, and a wireless communication interface and time stamps each received location information, and transmits tag location data over the wireless interface, and a location detection device that is in wireless communication with the location device receives the transmitted tag location data, and transmits the received location data to the timing system, with the timing system associating the received location data with the RFID tag number as provided by the RFID tag reader provided tag reads of the RFID tag associated with the location device.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: Systems and methods for determining a time of a passing at a reference line of an RFID tag traveling along a route and a time of lapsing of the tracked RFID tag on the route, the system have a plurality of spaced apart tag reader systems for wirelessly obtaining tag reads, wherein at least one of the tag reader systems is space apart from the reference line. The timing system receives a plurality of tag reads and determines the time of passing of the RFID at the reference line responsive to the plurality of received tag read messages received from the plurality of tag reader systems.

Abstract: A system and method for determining and tracking a location of a participant traveling along a route wherein the participant being tracked with an RFID tag using an RFID tag reader and a timing system, the system includes a location device associated with the RFID tag and has a location data receiver for receiving location information from a location providing source, and a wireless communication interface and time stamps each received location information, and transmits tag location data over the wireless interface, and a location detection device that is in wireless communication with the location device receives the transmitted tag location data, and transmits the received location data to the timing system, with the timing system associating the received location data with the RFID tag number as provided by the RFID tag reader provided tag reads of the RFID tag associated with the location device.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of an electrically non-conducting foam material that is configured for non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer having a predetermined thickness and that is configured for non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly is configured to receive at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and is configured to receive at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

Abstract: Systems and methods for timing of a passing of an object past a monitored location using a timing system and an automated object detection system detecting the passing of the object at the monitored location, and also having a remote entry computer system being positionable at a current location selected from a plurality potential locations each of which is set apart and different than the monitored location and having a clock determining a present time, a user interface receiving user input data, and a memory storing an offset time value, and the remote entry computer system receiving the user input data, receiving a user data input time associated with the receipt of the user input data, and storing the received user input data and the user data input time, and determining of an adjusted time value responsive to the determined remote time value and the stored offset time value.

Abstract: A system and method for determining a route or waypoints along a route to be or being traveled by a participant, the system including a location device associated with the participant having a location data receiver for receiving location data from a location providing source, and a wireless communication interface, the location detection device receiving location information from the location providing source, time stamping each received location information, and transmitting location data associated with the location device over the wireless interface; a location detection device in at least periodic wireless communication with the location device for receiving the transmitted location data, and transmitting the received location data; and an event/timing system receiving the transmitted location data, and determining a route or waypoints along a route to be or being traveled by a participant that will be tracked.