Patents by Inventor Robert Harwell

Robert Harwell 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).

  • Patent number: 9331772
    Abstract: An RF shielded room (14) which houses a magnetic resonance scanner (12) also houses a patient monitor (20) which includes a plurality of sensors (18) which collect physiological data about a patient undergoing a magnetic resonance examination. The monitor includes a transmitter (46) which transmits the physiological data on at least two frequency channels of a broadband frequency spectrum. A communication unit (26) located outside the RF shielded room includes first and second receivers (54, 58) which receive the physiological data from the monitor on the first and second frequency channels, respectively. A processor (62) combines physiological data received by the first and second receivers to. A display (32) displays the combined physiological data. A switch (56) switches antenna connections of the receivers (54, 58) responsive to detection of multipath fade.
    Type: Grant
    Filed: October 14, 2010
    Date of Patent: May 3, 2016
    Assignee: KONINKLIJKE PHILIPS N.V.
    Inventors: Otis Robert Harris, III, Robert Harwell
  • Patent number: 9331886
    Abstract: A magnetic field modem (26) includes an electro-magnetic radiation shielded (90) transmitter section (34) and a receiver section (36). The electro-magnetic radiation shielded (90) transmitter section (34) modulates data and transmits the data via a magnetic field through a radio frequency shield (20). The receiver section (34) receives the magnetic field through the radio frequency shield (20) and demodulates the data. The transmitter section includes an oscillator (40), a modulator (50), an amplifier (70), a magnetic transducer (80), and a non-ferrous magnetic shield (90). The oscillator (40) generates a carrier signal. The modulator (50) connects to the oscillator (40) and modulates the carrier signal with the data. The amplifier (70) connects to the modulator (50) and amplifies the modulated carrier signal. The magnetic transducer (80) connects to the amplifier (70) and converts the modulated carrier signal into a modulated magnetic signal.
    Type: Grant
    Filed: October 19, 2012
    Date of Patent: May 3, 2016
    Assignee: KONINKLIJKE PHILIPS N.V.
    Inventors: Robert Harwell, Otis Robert Harris
  • Publication number: 20140254646
    Abstract: A magnetic field modem (26) includes an electro-magnetic radiation shielded (90) transmitter section (34) and a receiver section (36). The electro-magnetic radiation shielded (90) transmitter section (34) modulates data and transmits the data via a magnetic field through a radio frequency shield (20). The receiver section (34) receives the magnetic field through the radio frequency shield (20) and demodulates the data. The transmitter section includes an oscillator (40), a modulator (50), an amplifier (70), a magnetic transducer (80), and a non-ferrous magnetic shield (90). The oscillator (40) generates a carrier signal. The modulator (50) connects to the oscillator (40) and modulates the carrier signal with the data. The amplifier (70) connects to the modulator (50) and amplifies the modulated carrier signal. The magnetic transducer (80) connects to the amplifier (70) and converts the modulated carrier signal into a modulated magnetic signal.
    Type: Application
    Filed: October 19, 2012
    Publication date: September 11, 2014
    Inventors: Robert Harwell, Otis Robert Harris
  • Publication number: 20120215092
    Abstract: An RF shielded room (14) which houses a magnetic resonance scanner (12) also houses a patient monitor (20) which includes a plurality of sensors (18) which collect physiological data about a patient undergoing a magnetic resonance examination. The monitor includes a transmitter (46) which transmits the physiological data on at least two frequency channels of a broadband frequency spectrum. A communication unit (26) located outside the RF shielded room includes first and second receivers (54, 58) which receive the physiological data from the monitor on the first and second frequency channels, respectively. A processor (62) combines physiological data received by the first and second receivers to. A display (32) displays the combined physiological data. A switch (56) switches antenna connections of the receivers (54, 58) responsive to detection of multipath fade.
    Type: Application
    Filed: October 14, 2010
    Publication date: August 23, 2012
    Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.
    Inventors: Otis Robert Harris, III, Robert Harwell
  • Publication number: 20070073140
    Abstract: A circuit for isolating line voltage from a patient in an MRI environment, uses a filter network tuned to line voltage and incorporating blocking capacitors to eliminate the need for bulky air core transformers, complex energy transfer systems, and ferromagnetic components, while providing reduced heating such as might produce patient discomfort.
    Type: Application
    Filed: September 12, 2005
    Publication date: March 29, 2007
    Inventors: Stephen Fisher, Robert Harwell
  • Publication number: 20060247512
    Abstract: A portable, wireless patient monitor may be placed with the patient in the bore of an MRI machine eliminating the need for separate cabling between the MRI machine and an external monitoring unit. In one embodiment, the patient monitor may be attached to the patient's shoulder by a harness or the like which may also serve to corral leads between the patient monitor and the patient.
    Type: Application
    Filed: March 15, 2005
    Publication date: November 2, 2006
    Inventors: Robert Harwell, Arthur Weeks, Stephen Fisher, Jorgen Kilden-Pedersen
  • Publication number: 20060206024
    Abstract: A wireless in bore sensor for magnet resonance imaging provides radio frequency communication of physiological and other data signals from a battery powered unit held adjacent to the patient within the bore by using multiple diversity techniques to overcome the interfering environment of the MRI imaging system and to prevent interference with the MRI system.
    Type: Application
    Filed: March 9, 2005
    Publication date: September 14, 2006
    Inventors: Arthur Weeks, Stephen Fisher, Jorgen Kilden-Pedersen, Robert Harwell, Scott Nolan, John Moore