Abstract: This invention is for tracking at least one plant. A method of this invention comprises: putting at least one seed or at least one stem in a corresponding at least one pot; positioning a corresponding at least one RFID tag with respect to the seed or stem in a manner, wherein the RFID tag comprises a strap; packaging a harvested material into a packaged product and attaching the RFID tag from the potted plant, or a product RFID tag that is associated with the plurality of tags to the packaged product; confirming a request for authorization by a RFID buy card; and after confirming ID information, transferring at least one product.

Abstract: Embodiments of the present invention relate to a mass resolving aperture that may be used in an ion implantation system. Embodiments of the present invention relate to a mass resolving aperture that is segmented, adjustable, and/or presents a curved surface to the oncoming ion species that will strike the aperture. Embodiments of the present invention also relate to the filtering of a flow of charged particles through a closed plasma channel (“CPC”) superconductor, or boson energy transmission system.

Abstract: This invention is for tracking at least one plant. A method of this invention comprises: putting at least one seed or at least one stem in a corresponding at least one pot; positioning a corresponding at least one RFID tag with respect to the seed or stem in a manner, wherein the RFID tag comprises a strap; packaging a harvested material into a packaged product and attaching the RFID tag from the potted plant, or a product RFID tag that is associated with the plurality of tags to the packaged product; confirming a request for authorization by a RFID buy card; and after confirming ID information, transferring at least one product.

Abstract: This invention is for tracking at least one plant. A method of this invention comprises: putting at least one seed or at least one stem in a corresponding at least one pot; positioning a corresponding at least one RFID tag with respect to the seed or stem in a manner, wherein the RFID tag comprises a strap; packaging a harvested material into a packaged product and attaching the RFID tag from the potted plant, or a product RFID tag that is associated with the plurality of tags to the packaged product; confirming a request for authorization by a RFID buy card; and after confirming ID information, transferring at least one product.

Abstract: This invention is for tracking at least one plant. A method of this invention comprises: putting at least one seed or at least one stem in a corresponding at least one pot; positioning a corresponding at least one RFID tag with respect to the seed or stem in a manner, wherein the RFID tag comprises a strap; packaging a harvested material into a packaged product and attaching the RFID tag from the potted plant, or a product RFID tag that is associated with the plurality of tags to the packaged product; confirming a request for authorization by a RFID buy card; and after confirming ID information, transferring at least one product.

Abstract: This invention is for tracking at least one plant. A method of this invention comprises: putting at least one seed or at least one stem in a corresponding at least one pot; positioning a corresponding at least one RFID tag with respect to the seed or stem in a manner, wherein the RFID tag comprises a strap; packaging a harvested material into a packaged product and attaching the RFID tag from the potted plant, or a product RFID tag that is associated with the plurality of tags to the packaged product; confirming a request for authorization by a RFID buy card; and after confirming ID information, transferring at least one product.

Abstract: A method and apparatus for tracking transported items using RFID tags are provided. A tote for transporting RFID tagged items includes a body capable of enclosing one or more RFID tagged items. RF reflective and/or absorbent material is positioned to inhibit RF signals from reaching the enclosed RFID tagged items from outside the body. A portion of a wall of the tote or a sleeve for insertion into the tote can be free of reflective and/or absorbent material to allow RF signals to be sent into, and exit, the tote. The RF reflective and/or absorbent material can be provided with or without texture.

Abstract: Embodiments of the present invention relate to a mass resolving aperture that may be used in an ion implantation system. Embodiments of the present invention relate to a mass resolving aperture that is segmented, adjustable, and/or presents a curved surface to the oncoming ion species that will strike the aperture. Embodiments of the present invention also relate to the filtering of a flow of charged particles through a closed plasma channel (“CPC”) superconductor, or boson energy transmission system.

Abstract: Embodiments of the subject invention relate to a method and apparatus for electrically displaying information. Specific embodiments pertain to displaying information on shelf edges in a retail setting. Embodiments can provide a low-cost, low-power consumption, and durable solution that allows retailers to display, and, optionally, automatically update, information on shelf edges utilizing e-paper technology and wireless communications. Specific embodiments pertain to an e-paper display without a glass backplane. Further specific embodiments pertain to a flexible e-paper display incorporating a separate driving mechanism that can drive one or multiple e-papers.

Abstract: Embodiments of the present invention relate to a mass resolving aperture that may be used in an ion implantation system. Embodiments of the present invention relate to a mass resolving aperture that is segmented, adjustable, and/or presents a curved surface to the oncoming ion species that will strike the aperture. Embodiments of the present invention also relate to the filtering of a flow of charged particles through a closed plasma channel (“CPC”) superconductor, or boson energy transmission system.

Abstract: Embodiments of the present invention relate to a mass resolving aperture that may be used in an ion implantation system. Embodiments of the present invention relate to a mass resolving aperture that is segmented, adjustable, and/or presents a curved surface to the oncoming ion species that will strike the aperture. Embodiments of the present invention also relate to the filtering of a flow of charged particles through a closed plasma channel (“CPC”) superconductor, or boson energy transmission system.

Abstract: Apparatus and methods are provided for automatically interrogating a tagged object using radio frequency identification (RFID) when the object is moved. In one embodiment, a worker is outfitted with a wearable RFID system including an RF antenna, an RFID reader, and a holder to hold the antenna and reader during operation. The system is worn by the worker while the worker moves objects from one place to another. When the worker moves an object with an attached RFID tag, the antenna automatically begins scanning for signals from the object's RFID tag. When a RF signal is received by the antenna, the RFID reader collects the signal and transmits it to a host system which processes the signal to obtain information related to the object to which the RFID tag is attached.

Abstract: Apparatus and methods are provided for automatically interrogating a tagged object using radio frequency identification (RFID) when the object is moved. In one embodiment, a worker is outfitted with a wearable RFID system including an RF antenna, an RFID reader, and a holder to hold the antenna and reader during operation. The system is worn by the worker while the worker moves objects from one place to another. When the worker moves an object with an attached RFID tag, the antenna automatically begins scanning for signals from the object's RFID tag. When a RF signal is received by the antenna, the RFID reader collects the signal and transmits it to a host system which processes the signal to obtain information related to the object to which the RFID tag is attached.

Abstract: Apparatus and methods are provided for automatically interrogating a tagged object using radio frequency identification (RFID) when the object is moved. In one embodiment, a worker is outfitted with a wearable RFID system including an RF antenna, an RFID reader, and a holder to hold the antenna and reader during operation. The system is worn by the worker while the worker moves objects from one place to another. When the worker moves an object with an attached RFID tag, the antenna automatically begins scanning for signals from the object's RFID tag. When a RF signal is received by the antenna, the RFID reader collects the signal and transmits it to a host system which processes the signal to obtain information related to the object to which the RFID tag is attached.

Abstract: A method and apparatus for tracking transported items using RFID tags are provided. A tote for transporting RFID tagged items includes a body capable of enclosing one or more RFID tagged items. RF reflective and/or absorbent material is positioned to inhibit RF signals from reaching the enclosed RFID tagged items from outside the body. A portion of a wall of the tote or a sleeve for insertion into the tote can be free of reflective and/or absorbent material to allow RF signals to be sent into, and exit, the tote. The RF reflective and/or absorbent material can be provided with or without texture.