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Abrasion resistant omnidirectionally reflective rope
A flexible abrasion resistant omnidirectionally reflective rope has a central braided high strength core comprising gel fiber or p-aramid fibers that is surrounded by cylindrically braided sleeve of reflective strips composed of narrow width reflective strips that comprise a woven or knitted narrow width strip and a flexible nylon retroreflective sheet sewn thereon and covered with abrasion resistant coating. The flexible retroreflective sheet is formed by thermally bonding corner cube, microsphere retroreflectors, or wide angle exposed retroreflective lenses to a flexible polymeric sheet. Due to its braided construction, the reflective rope reflects light omnidirectionally over a large angle of acceptance, thereby providing an improved measure of safety in the marine craft environment. The reflected light beam provides accurate illumination of the marine craft gunnels, sail edges, mooring lines, railings and the like when the omnidirectionally reflective rope is used during dusk, fog or nighttime hours.
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| Abrasion+resistant+omnidirectionally+reflective+rope |
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Domestic animal training method
A method of training animals provides for the creation of a recorded track taking into account a plurality of recording techniques for a particular sound source A stationary microphone is utilized to provide a first layer, a moving microphone as utilized to provide a second layer and a pair of microphones proximate to a live animal's ears near a sound source provide three inputs to a mixer. The layers are then mixed and then processed by a processor to provide to a recorder/burner to provide a compact disc in the preferred embodiment. The compact disc is then utilized to train animals for possible exposure to live sound sources at a later time.
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| Domestic+animal+training+method |
Collapsible game feeder
An exemplary collapsible game feeder and method are provided. In one embodiment, the collapsible game feeder includes a collapsible container and a dispensing device. The collapsible container may receive and store feed and release feed to the dispensing device for dispensing external the collapsible game feeder. In another aspect of the invention, a method for transporting and using a collapsible game feeder. The method includes providing a collapsible game feeder, transporting the collapsible game feeder to a desired location in the collapsed state, filling the collapsible game feeder with feed, and using the collapsible game feeder by having it dispense feed. The present invention also encompasses other embodiments and methods.
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| Collapsible+game+feeder |
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Living specimen induction chamber
The invention described herein provides an induction chamber used to sedate one or more living specimens. The induction chamber comprises at least one gas inlet through which anesthesia gas and oxygen are supplied. To minimize escape of anesthetizing gas is into the ambient room or surroundings, the induction chamber includes a gas outlet or port that draws anesthesia gas. The induction chamber also comprises a device that obstructs gas flow through the gas outlet based on the position of the door. In one chamber design, when the door closes, the gas outlet is blocked. Thus, opening the door to the induction chamber causes anesthesia gas is to be drawn through the outlet while closing the door allows anesthesia gas to collect in the chamber and sedate any specimens located therein.
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| Living+specimen+induction+chamber |
Methods and apparatus for identifying and diagnosing live eggs using heart rate and embryo motion
Identifying live eggs includes: a) illuminating eggs with light; b) receiving light passing through each egg at a light detector; c) generating an output signal that corresponds to light received at a light detector for each respective egg; d) analyzing the output signals to identify an indication of an external disturbance; e) analyzing the output signal for each egg to identify the existence of an embryo heart rate and/or embryo movement; and f) designating an egg as a live egg in response to identifying embryo heart rate and/or embryo movement. Steps a) through d) are repeated if output signals from a predetermined number of eggs contain an indication of an external disturbance to the eggs. Steps a) through f) are repeated if the number of eggs designated as live exceeds an expected number, or if embryo movement occurs at about the same time in a predetermined number of eggs.
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| Methods+and+apparatus+for+identifying+and+diagnosing+live+eggs+using+heart+rate+and+embryo+motion |
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