Patents by Inventor James C. Squire
James C. Squire has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7843768Abstract: The disclosed system uses seismic signaling to locate survivors in a mine collapse. A separate transmitter with a specific pre-selected frequency or frequencies is placed in pre-positioned safety zones of a mine. The system generates frequency-locked, unmodulated seismic energy, which allows rescuers to identify the safety zone where a transmitter is activated. The transmitter comprises an oscillator that generates the signal. The oscillator drives the transducer. The transducer causes the inertial mass to move. The movement of the inertial mass generates the seismic waves, which are conducted through the pressure plate to the earth. The seismic signal is detected then amplified, filtered, converted and then processed. The use of a continuous signal enables the processing unit to identify the frequency of the signal with a very low error rate, using frequency content identification. The disclosure also describes a method for transmitting seismic waves through the earth using the above described system.Type: GrantFiled: April 11, 2008Date of Patent: November 30, 2010Inventors: James C. Squire, Gerald A Sullivan, George W Flathers, III
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Publication number: 20090257316Abstract: The disclosed system uses seismic signaling to locate survivors in a mine collapse. A separate transmitter with a specific pre-selected frequency or frequencies is placed in pre-positioned safety zones of a mine. The system generates frequency-locked, unmodulated seismic energy, which allows rescuers to identify the safety zone where a transmitter is activated. The transmitter comprises an oscillator that generates the signal. The oscillator drives the transducer. The transducer causes the inertial mass to move. The movement of the inertial mass generates the seismic waves, which are conducted through the pressure plate to the earth. The seismic signal is detected then amplified, filtered, converted and then processed. The use of a continuous signal enables the processing unit to identify the frequency of the signal with a very low error rate, using frequency content identification. The disclosure also describes a method for transmitting seismic waves through the earth using the above described system.Type: ApplicationFiled: April 11, 2008Publication date: October 15, 2009Applicant: VMI Foundation, Inc.Inventors: James C. Squire, Gerald A. Sullivan, George W. Flathers, III
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Patent number: 7441367Abstract: An autonomous robotic system and method for removing pests from a specific location. The robotic system of the invention preferably comprises a means for attracting pests to at least one specific location; and a robotic means for collecting and/or exterminating pests attracted to the specified location. In certain embodiments, the robotic means comprises a mobile robot and a means for navigating the robotic means. In operation, pests are attracted to at least one location by an attracting means, and these pests are then collected and/or exterminated by a mobile, autonomous robot of the invention.Type: GrantFiled: March 13, 2006Date of Patent: October 28, 2008Assignee: VMI FoundationInventors: James C. Squire, David L. Livingston, Daniel E Sonenshine, Dennis J. Crump, Glenn B. Hammond, Justin H. Woulfe, Gerald Allen Sullivan, Jr.
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Patent number: 7066905Abstract: Embodiments of the present invention are directed to a method and apparatus for accurate positioning of a dual balloon catheter. In one embodiment of the present invention, a first balloon provides an anchoring point. In one embodiment, the first balloon has protrusions to help secure its position. In one embodiment, once the first balloon is inflated, it provides a fixed position relative to which a second balloon is accurately positioned in the treatment region. In another embodiment, a second balloon imparts a radial force. In another embodiment, a second balloon imparts an axial force, using the first balloon as an anchor against which the force is applied. The force may be applied in a forward or a backward direction. In yet another embodiment, a second balloon imparts a rotational force, using the first balloon as an anchor against which the force is applied.Type: GrantFiled: November 13, 2002Date of Patent: June 27, 2006Inventors: James C. Squire, Elazer R. Edelman, Paul Tierstein
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Patent number: 6970101Abstract: A method of matching a vehicle with a vacant parking space in a parking facility having numerous parking spaces. The method includes storing identifying characteristics of each of the parking spaces in a database. To request a parking space, a garage customer inputs data concerning his or her preferences for parking. The inventive method then determines which of the plurality of parking spaces are vacant, matches the data inputted by the user with the data identifying characteristics of each of the parking spaces determined to be vacant, and determines which of the parking spaces determined to be vacant most closely matches the data inputted by the user. The closest parking space is reserved for parking by the user.Type: GrantFiled: April 21, 2003Date of Patent: November 29, 2005Inventors: James C Squire, Jenny L Dinneen, Brian D Holt, Tsung-ta Ho, Troy J Siemers
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Patent number: 6796077Abstract: An illuminating fishing lure having a lure body with a first lure end and second lure end. A light source positioned the lure body and a hook, having a base and a barb, is connected to and extends from the first lure end, wherein the base is electrically connected to the light source. A guard having a first guard end and a second guard end extends from and is connected to a side of the lure body at a first guard end thereof. The guard has a length substantially equal to the hook to allow contact of the second guard end with the barb. The lure further includes a power source having a negative charge end and positive charge end. The positive charge end is connected to the light source and the negative charge end is connected to the first guard end. Upon connection thereof the light source is illuminated.Type: GrantFiled: April 21, 2003Date of Patent: September 28, 2004Inventors: Banks Dupree, James C Squire, Matthew R Hyre
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Publication number: 20040092870Abstract: Embodiments of the present invention are directed to a method and apparatus for accurate positioning of a dual balloon catheter. In one embodiment of the present invention, a first balloon provides an anchoring point. In one embodiment, the first balloon has protrusions to help secure its position. In one embodiment, once the first balloon is inflated, it provides a fixed position relative to which a second balloon is accurately positioned in the treatment region. In another embodiment, a second balloon imparts a radial force. In another embodiment, a second balloon imparts an axial force, using the first balloon as an anchor against which the force is applied. The force may be applied in a forward or a backward direction. In yet another embodiment, a second balloon imparts a rotational force, using the first balloon as an anchor against which the force is applied.Type: ApplicationFiled: November 13, 2002Publication date: May 13, 2004Inventors: James C. Squire, Elazer R. Edelman, Paul Tierstein
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Patent number: 6179858Abstract: An apposition sensing system including a stent; a catheter assembly to which the stent is coupled for deployment into a lumen; and a sensor positioned on the catheter assembly adjacent to an end of the stent. The sensor is adapted to provide an electrical parameter which is indicative of apposition of the end of the stent to the inner wall of the lumen. In one aspect of the invention, the sensor includes first and second pressure sensors positioned at proximal and distal portions of the catheter assembly adjacent to proximal and distal ends of the stent. A monitoring unit monitors pressure changes sensed by the sensors. In accordance with an alternative embodiment of the invention, there is provided an expansion sensing system including a stent having an electrically conductive region; an expandable insulating sleeve; a catheter assembly to which the stent is coupled for deployment into a lumen; and at least one electrode associated with the catheter assembly.Type: GrantFiled: January 8, 1999Date of Patent: January 30, 2001Assignee: Massachusetts Institute of TechnologyInventors: James C. Squire, Campell Rogers, Elazer R. Edelman
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Patent number: 6091980Abstract: An endoluminal device slippage sensor system including an electrically conductive endoluminal device and a catheter assembly to which the device is coupled for deployment into a lumen. First, second and third electrodes are associated with the catheter assembly, each respectively in direct electrical contact with a proximal, a middle and a distal portion of the device. A potential source generates a potential between the first and second electrodes and between the second and third electrodes. The potential between the electrodes is varied in accordance with a change of position of the device along the axis of the catheter assembly during deployment in which the proximal or distal portion of the device is disconnected from the first or third electrode, respectively.Type: GrantFiled: January 5, 1999Date of Patent: July 18, 2000Assignee: Massachusetts Institute of TechnologyInventors: James C. Squire, Campbell Rogers, Elazer R. Edelman