System and method for in-vivo imaging
First Claim
1. A method for varying a frame capture rate of an in vivo camera system, the method comprising:
- using a swallowable imaging capsule, capturing in vivo images at a first frame capture rate;
operating a magnetic field external to the capsule;
receiving data of induced current in an induction coil contained within the capsule;
calculating a velocity of the imaging capsule based on the induced current; and
based on the calculated velocity, varying the first frame capture rate to a second frame capture rate, the second capture rate being lower when the calculated velocity is relatively slow and faster when the calculated velocity is relatively fast.
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Abstract
An in-vivo imaging device including a camera may include a frame storage device. Systems and methods which vary the frame capture rate of the camera and/or frame display rate of the display unit of in-vivo camera systems are discussed. The capture rate is varied based on physical measurements related to the motion of the camera. Alternatively, the frame capture rate is varied based on comparative image processing of a plurality of frames. The frame display rate of the system is varied based on comparative image processing of a multiplicity of frames. Both the frame capture and the frame display rates of such systems can be varied concurrently.
27 Citations
14 Claims
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1. A method for varying a frame capture rate of an in vivo camera system, the method comprising:
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using a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; operating a magnetic field external to the capsule; receiving data of induced current in an induction coil contained within the capsule; calculating a velocity of the imaging capsule based on the induced current; and based on the calculated velocity, varying the first frame capture rate to a second frame capture rate, the second capture rate being lower when the calculated velocity is relatively slow and faster when the calculated velocity is relatively fast. - View Dependent Claims (2, 3)
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4. A method for varying a frame capture rate of an in vivo camera system, the method comprising:
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using a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; receiving instantaneous acceleration data from an accelerometer placed in the interior of capsule; calculating the capsule velocity based on the acceleration data; and based on the calculated velocity, varying the first frame capture rate to a second frame capture rate, the second capture rate being lower when the calculated velocity is relatively slow and faster when the calculated velocity is relatively fast.
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5. A method for varying a frame capture rate of an in vivo camera system, the method comprising:
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using a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; receiving pressure data from a pressure sensor attached to the capsule; calculating velocity based on the pressure data; and based on the calculated velocity, varying the first frame capture rate to a second frame capture rate, the second capture rate being lower when the calculated velocity is relatively slow and faster when the calculated velocity is relatively fast. - View Dependent Claims (6)
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7. A method for varying a frame capture rate of an in vivo camera system, the method comprising:
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using a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; tracking the capsule with an ultrasound unit; converting the ultrasound data to capsule velocity data; and based on the calculated velocity data, varying the first frame capture rate to a second frame capture rate, the second capture rate being lower when a calculated velocity is relatively slow and faster when the calculated velocity is relatively fast.
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8. A system comprising:
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a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; and a processor to receive data of induced current in an induction coil contained within the capsule, to calculate a velocity of the imaging capsule based on the induced current and to, based on the calculated velocity, vary the first frame capture rate to a second frame capture rate, the second capture rate being lower when the calculated velocity is relatively slow and faster when the calculated velocity is relatively fast. - View Dependent Claims (9, 10)
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11. A system comprising
a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; - and
a processor to receive acceleration data from an accelerometer placed in the interior of capsule, to calculate a capsule velocity based on the acceleration data and to, based on the calculated velocity, vary the first frame capture rate to a second frame capture rate, the second capture rate being lower when the calculated velocity is relatively slow and faster when the calculated velocity is relatively fast.
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12. A system comprising:
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a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; and a processor to receive pressure data from a pressure sensor attached to the capsule, to calculate a capsule velocity based on the pressure data and to, based on the calculated velocity, vary the first frame capture rate to a second frame capture rate, the second capture rate being lower when the calculated velocity is relatively slow and faster when the calculated velocity is relatively fast. - View Dependent Claims (13)
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14. A system comprising:
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a swallowable imaging capsule, capturing in vivo images at a first frame capture rate; and a processor is to convert ultrasound data to capsule velocity data and to, based on the calculated velocity data, vary the first frame capture rate to a second frame capture rate, the second capture rate being lower when a calculated velocity is relatively slow and faster when the calculated velocity is relatively fast.
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Specification