Abstract: A tag attachable to an animal, the tag comprising: a battery connected to a radio transceiver that consumes power from the battery during transmissions and receptions of signals to and from one or more proximate tags attachable to one or more other animals to generate paired tag readings; and a controller configured to operate the radio transceiver for a predetermined duration and frequency of transmissions, and a predetermined duration and frequency of receptions; wherein the predetermined duration and frequency of transmissions and the predetermined duration and frequency of receptions are based on power consumptions of the radio transceiver during transmissions and receptions, and a targeted number of paired tag readings of the tag.

Abstract: A tag attachable to an animal, the tag comprising: a battery connected to a radio transceiver that consumes power from the battery during transmissions and receptions of signals to and from one or more proximate tags attachable to one or more other animals to generate paired tag readings; and a controller configured to operate the radio transceiver for a predetermined duration and frequency of transmissions, and a predetermined duration and frequency of receptions; wherein the predetermined duration and frequency of transmissions and the predetermined duration and frequency of receptions are based on power consumptions of the radio transceiver during transmissions and receptions, and a targeted number of paired tag readings of the tag.

Abstract: A tag attachable to an animal, the tag comprising: a battery connected to a radio transceiver that consumes power from the battery during transmissions and receptions of signals to and from one or more proximate tags attachable to one or more other animals to generate paired tag readings; and a controller configured to operate the radio transceiver for a predetermined duration and frequency of transmissions, and a predetermined duration and frequency of receptions; wherein the predetermined duration and frequency of transmissions and the predetermined duration and frequency of receptions are based on power consumptions of the radio transceiver during transmissions and receptions, and a targeted number of paired tag readings of the tag.

Abstract: The present invention relates to methods of making articles, and systems for providing wool articles having self-cleaning properties. The self-cleaning properties are brought about coating the wool articles with a photocatalyst formulation. The formulation contains titanium compounds, stabilizers, catalysts, and water.

Abstract: A gas measurement device for measuring at least one gas in the stomach of a mammal, the device comprises a housing for being located in the mammal's stomach and providing at least one gas sensor for detecting the gas. The housing is impermeable to liquid within the stomach. The device may also comprise a controller disposed within the housing and which is electrically coupled to the at least one gas sensor. The controller is arranged to periodically process an output from the gas sensor(s) to provide data indicative of the amount of the gas within the stomach. The controller can include a wireless transmitter for transmitting the data to a remotely located receiving device disposed exterior to the mammal.

Abstract: A plasma treated gas permeable material is produced by applying an alternating voltage between spaced electrodes, at least one of which is covered with a dielectric barrier and at least one of which comprises a plurality of discrete electrode segments, to generate plasma microdischarges between the spaced electrodes. A gas permeable material is passed between or adjacent to the spaced electrodes. A gas is moved between the electrode segments into and through the space between the electrodes and through the gas permeable material. The gas flows over plasma generation surfaces of the respective electrode segments and is moved at a rate whereby the gas flow between the spaced electrodes is turbulent and so randomises the plasma microdischarges and disperses plasma products that would otherwise give rise to burning instabilities in the gas permeable material, whereby the randomized plasma microdischarges provide a generally uniform plasma treatment of the gas permeable material.

Abstract: A plasma treated gas permeable material is produced by applying an alternating voltage between spaced electrodes, at least one of which is covered with a dielectric barrier and at least one of which comprises a plurality of discrete electrode segments, to generate plasma microdischarges between the spaced electrodes. A gas permeable material is passed between or adjacent to the spaced electrodes. A gas is moved between the electrode segments into and through the space between the electrodes and through the gas permeable material. The gas flows over plasma generation surfaces of the respective electrode segments and is moved at a rate whereby the gas flow between the spaced electrodes is turbulent and so randomises the plasma microdischarges and disperses plasma products that would otherwise give rise to burning instabilities in the gas permeable material, whereby the randomized plasma microdischarges provide a generally uniform plasma treatment of the gas permeable material.

Abstract: The present invention relates to methods of making articles, and systems for providing wool article have self-cleaning properties. The self-cleaning properties are brought about coating the wool articles with a photocatalyst formulation. The formulation contains titanium compounds, stabilizers, catalysts, and water.

Abstract: A flexible garment system which is capable of emitting heat when an electrical current is applied, comprising an electrically insulating fibre rich base structure (4) incorporating an electrically and thermally conductive area (1) and at least two power supply lines (2). The heating element consists of a woven, knitted or non-woven fabric (1) containing fibres that are both electrically and thermally conductive. Two or more fabric-based power supply lines (2) are incorporated to supply the panel with electric current, which are connected to the power supply via suitable electrically conductive fasteners (3).

Abstract: A plasma treated gas permeable material is produced by applying an alternating voltage between spaced electrodes, at least one of which is covered with a dielectric barrier and at least one of which comprises a plurality of discrete electrode segments, to generate plasma microdischarges between the spaced electrodes. A gas permeable material is passed between or adjacent to the spaced electrodes. A gas is moved between the electrode segments into and through the space between the electrodes and through the gas permeable material. The gas flows over plasma generation surfaces of the respective electrode segments and is moved at a rate whereby the gas flow between the spaced electrodes is turbulent and so randomises the plasma microdischarges and disperses plasma products that would otherwise give rise to burning instabilities in the gas permeable material, whereby the randomized plasma microdischarges provide a generally uniform plasma treatment of the gas permeable material.