Continuous positioning apparatus and methods
First Claim
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1. Transient event-resistant apparatus configured to maintain an optimal level of compression between one or more sensors and a blood vessel, said transient event-resistant apparatus comprising:
- said one or more sensors configured to be disposed proximate said blood vessel;
a data storage apparatus; and
a digital processor apparatus configured to run a computer program thereon, said computer program comprising a plurality of instructions which are configured to, when executed by said digital processor apparatus, cause said transient event-resistant apparatus to;
analyze a first plurality of signals generated by said one or more sensors at a first location proximate to said blood vessel;
obtain first data related to one or more first parameters measured by said one or more sensors at said first location;
generate a first plurality of control signals for a motor configured to adjust a position of each of said one or more sensors;
store said first data at said data storage apparatus;
cause placement of said one or more sensors at one or more second locations proximate to said blood vessel;
obtain second data related to one or more second parameters measured by said one or more sensors at said one or more second locations; and
process said second data with regards to said first data to determine data indicative of an optimized location, wherein said process of said second data with respect to said first data at least in part comprises;
application of a correction factor to said second data to generate corrected data;
assignment of a value of closeness of said one or more second locations to said optimized location based at least in part on said corrected data;
calculation of a difference between said value of closeness at said one or more second locations and an assigned value assigned of closeness of said first location to said optimized location; and
based at least in part on said difference, determination of a size of a dither value.
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Abstract
Improved apparatus and methods for non-invasively assessing one or more parameters associated with systems such as fluidic circulating systems (e.g., the circulatory system of a living organism). In a first aspect, an improved method of continuously measuring pressure from a compressible vessel is disclosed, wherein a substantially optimal level of compression for the vessel is achieved and maintained using dynamically applied dither perturbations (e.g., modulation) on the various axes associated with the vessel. In a second aspect, an improved apparatus and method are provided for monitoring hemodynamic parameters, such as blood pressure, in a continuous and non-invasive manner while operating under a single unifying scheme. One variant of this scheme using a simulated annealing (SA) type approach to determining and maintaining an optimal operating state.
306 Citations
8 Claims
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1. Transient event-resistant apparatus configured to maintain an optimal level of compression between one or more sensors and a blood vessel, said transient event-resistant apparatus comprising:
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said one or more sensors configured to be disposed proximate said blood vessel; a data storage apparatus; and a digital processor apparatus configured to run a computer program thereon, said computer program comprising a plurality of instructions which are configured to, when executed by said digital processor apparatus, cause said transient event-resistant apparatus to; analyze a first plurality of signals generated by said one or more sensors at a first location proximate to said blood vessel; obtain first data related to one or more first parameters measured by said one or more sensors at said first location; generate a first plurality of control signals for a motor configured to adjust a position of each of said one or more sensors; store said first data at said data storage apparatus; cause placement of said one or more sensors at one or more second locations proximate to said blood vessel; obtain second data related to one or more second parameters measured by said one or more sensors at said one or more second locations; and process said second data with regards to said first data to determine data indicative of an optimized location, wherein said process of said second data with respect to said first data at least in part comprises; application of a correction factor to said second data to generate corrected data; assignment of a value of closeness of said one or more second locations to said optimized location based at least in part on said corrected data; calculation of a difference between said value of closeness at said one or more second locations and an assigned value assigned of closeness of said first location to said optimized location; and based at least in part on said difference, determination of a size of a dither value. - View Dependent Claims (2, 3, 4, 5)
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6. A method of operating a transient event-resistant apparatus, said transient event-resistant apparatus (i) configured to maintain an optimal level of compression between one or more sensors and a blood vessel, and (ii) comprising at least one or more sensors, data storage apparatus, and digital processor apparatus, said digital processor apparatus in signal communication with each of said one or more sensors, said data storage apparatus, and a motorized apparatus configured to control positioning of said one or more sensors, said method comprising:
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receiving a first plurality of signals from said one or more sensors disposed at a first location proximate to said blood vessel; based at least in part on said receipt of said first plurality of signals, obtaining first data related to one or more first parameters measured by said one or more sensors at said first location; algorithmically analyzing said first plurality of signals using at least a computer program configured to execute on said digital processor apparatus; based at least in part on said algorithmically analyzing, generating a first plurality of control signals for said motorized apparatus, said first plurality of control signals configured to cause adjusting of a position of each of said one or more sensors; storing said first data at said data storage apparatus; causing placement, via said motorized apparatus, of said one or more sensors at one or more second locations proximate to said blood vessel; obtaining second data related to one or more second parameters measured by said one or more sensors at said one or more second locations; and processing said second data with regards to said first data to determine data indicative of an optimized location, wherein said processing of said second data with respect to said first data at least in part comprises; applying a correction factor to said second data to generate corrected data; assigning a value of proximity of said one or more second locations to said optimized location based at least in part on said corrected data; determining a difference between said value of proximity at said one or more second locations and an assigned value assigned of proximity of said first location to said optimized location; and based at least in part on said difference, determining a size of a dither value. - View Dependent Claims (7, 8)
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Specification
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Current AssigneeZhejiang Shanshi Biological Medical DevicesCompany Limited
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Original AssigneeUnited States GTM Medical Devices
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InventorsKatayama, Andrew S., Keitel, Todd A., Goharlaee, Manouchehr, Gallant, Stuart L., Craycroft, Warren B.
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Primary Examiner(s)Messersmith, Eric J
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Application NumberUS14/828,292Publication NumberTime in Patent Office1,366 DaysField of SearchUS Class CurrentCPC Class CodesA61B 5/021 Measuring pressure in heart...A61B 5/02233 Occluders specially adapted...A61B 5/0225 the pressure being controll...A61B 5/6843 Monitoring or controlling s...A61B 5/72 Signal processing specially...
