System for voice control of a medical implant
First Claim
1. A system for implantation in a mammal body for the control of and communication with a medical implant in the mammal body, the system comprising a command input device and a processing device coupled thereto, the processing device being adapted to generate input to a command generator which is comprised in the system coupled to the processing device and which is adapted to generate and communicate commands to the medical implant in response to input received from the processing device, the system further comprising a memory unit connected to at least one of said devices in the system for storing a memory bank of commands, the system being characterized in that:
- it is adapted to be implanted inside or in proximity to the medical implant,the command input device is adapted to receive commands from a user as voice commands,the commands stored in the memory unit include voice commands,the processing device comprises a filter for filtering input received via the command input device,the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of high frequency losses caused by the mammal body,the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of frequency distortion caused by the mammal body,the processing device is adapted to deliver filtered and compensated voice commands as input to the command generator which is adapted to compare received voice commands to voice commands stored in the memory unit, and if said comparison yields a likeness, to generate a corresponding command and communicate it to the medical implant, andsaid filter is adapted to filter received voice commands against the background of high frequency losses and frequency distortion caused by the mammal body based on the specific position of said command input device inside the body.
3 Assignments
0 Petitions
Accused Products
Abstract
An implantable system (11) for control of and communication with an implant (17) in a body, comprising a command input device (12) and a processing device (13) coupled thereto, the processing device (13) being adapted to generate input to a command generator (16) which is comprised in the system (11) coupled to the processing device (13) and which is adapted to generate and communicate commands to the medical implant (17) in response to input received from the processing device (13), the system (11) further comprising a memory unit (15) connected to at least one of said devices in the system (11) for storing a memory bank of commands. The command input device (12) is adapted to receive commands from a user as voice commands, and the processing device (13) comprises a filter adapted to filter voice commands against high frequency losses and frequency distortion caused by the mammal body (10).
14 Citations
45 Claims
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1. A system for implantation in a mammal body for the control of and communication with a medical implant in the mammal body, the system comprising a command input device and a processing device coupled thereto, the processing device being adapted to generate input to a command generator which is comprised in the system coupled to the processing device and which is adapted to generate and communicate commands to the medical implant in response to input received from the processing device, the system further comprising a memory unit connected to at least one of said devices in the system for storing a memory bank of commands, the system being characterized in that:
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it is adapted to be implanted inside or in proximity to the medical implant, the command input device is adapted to receive commands from a user as voice commands, the commands stored in the memory unit include voice commands, the processing device comprises a filter for filtering input received via the command input device, the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of high frequency losses caused by the mammal body, the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of frequency distortion caused by the mammal body, the processing device is adapted to deliver filtered and compensated voice commands as input to the command generator which is adapted to compare received voice commands to voice commands stored in the memory unit, and if said comparison yields a likeness, to generate a corresponding command and communicate it to the medical implant, and said filter is adapted to filter received voice commands against the background of high frequency losses and frequency distortion caused by the mammal body based on the specific position of said command input device inside the body. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A system for implantation in a mammal body for the control of and communication with a medical implant in the mammal body, the system comprising a command input device and a processing device coupled thereto, the processing device being adapted to generate input to a command generator which is comprised in the system coupled to the processing device and which is adapted to generate and communicate commands to the medical implant in response to input received from the processing device, the system further comprising a memory unit connected to at least one of said devices in the system for storing a memory bank of commands, the system being characterized in that:
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it is adapted to be implanted inside or in proximity to the medical implant, the command input device is adapted to receive commands from a user as voice commands, the commands stored in the memory unit include voice commands, the processing device comprises a filter for filtering input received via the command input device, the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of high frequency losses caused by the mammal body, the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of frequency distortion caused by the mammal body, the processing device is adapted to deliver filtered and compensated voice commands as input to the command generator which is adapted to compare received voice commands to voice commands stored in the memory unit, and if said comparison yields a likeness, to generate a corresponding command and communicate it to the medical implant, wherein the system further comprising at least one of; an internal energy source for powering implantable energy consuming components of the apparatus, an internal energy receiver, adapted to;
be located inside the mammal'"'"'s body, be connected to any implanted energy consuming components of the system for directly or indirectly supplying energy thereto, and be energized non-invasively and wirelessly by transmission of wireless energy from an external energy source from outside the mammal'"'"'s body,an implantable internal energy source comprised in the system, being chargeable by the energy transferred from an external energy source, and a wireless energy transmission device adapted to energize at least one implantable energy consuming component of the system with wireless energy. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33)
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34. A system for implantation in a mammal body for the control of and communication with a medical implant in the mammal body, the system comprising a command input device and a processing device coupled thereto, the processing device being adapted to generate input to a command generator which is comprised in the system coupled to the processing device and which is adapted to generate and communicate commands to the medical implant in response to input received from the processing device, the system further comprising a memory unit connected to at least one of said devices in the system for storing a memory bank of commands, the system being characterized in that:
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it is adapted to be implanted inside or in proximity to the medical implant, the command input device is adapted to receive commands from a user as voice commands, the commands stored in the memory unit include voice commands, the processing device comprises a filter for filtering input received via the command input device, the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of high frequency losses caused by the mammal body, the filter is adapted to filter, compensate, or filter and compensate, for received voice commands against the background of frequency distortion caused by the mammal body, the processing device is adapted to deliver filtered and compensated voice commands as input to the command generator which is adapted to compare received voice commands to voice commands stored in the memory unit, and if said comparison yields a likeness, to generate a corresponding command and communicate it to the medical implant, wherein the system further comprising a sensor and/or a measuring device sensing or measuring at least one of; at least one physical parameter of the patient, and at least one functional parameter related to the apparatus, comprising at least one of; a functional parameter correlated to the transfer of energy for charging an internal energy source adapted to be charged by an external energy source, when an internal energy source is implanted, and a functional parameter related to the apparatus, wherein the apparatus further comprising a feedback device for sending feedback information from inside the patient'"'"'s body to at least one of; an implantable internal control unit comprised, an external control unit outside of the patients body, and an external control unit outside of the patients body via the internal control unit, the internal control unit being adapted to be programmed by the external control unit to regulate the apparatus according to a pre-programmed time-schedule or to input from any sensor sensing any possible physical parameter of the patient or any functional parameter of the system, wherein the feedback information being related to at least one of;
the at least one physical parameter of the patient and the at least one functional parameter related to the system.- View Dependent Claims (35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45)
and wherein thus, the noise cancellation is an active processing to counteract the effect of such internally generated body sounds, when the processing device is implanted and the processing device receives a voice input command from a user.
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37. The system of claim 34, in which the processing device is adapted to recognize one or more specific noise sources in the mammal body, and to activate said cancellation when noise from such a noise source is detected, in which said cancellation is only activated when the processing device receives a voice input command from a user.
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38. The system of claim 34, in which the command generator comprises a learning function which is adapted to perform learning sessions for learning which of a number of voice commands that should be interpreted as meaning one of a number of pre-programmed commands stored in the memory.
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39. The system of claim 38, additionally comprising a wireless receiver for receiving commands from a remote control outside of the mammal body, said commands comprising commands which should also be generated by the command generator upon recognizing a voice command from a user, so that a voice command issued by a user can be accompanied by a wireless command from the remote control during a learning session, in order for the learning function to learn which command that should be generated upon the reception of a certain voice command.
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40. The system of claim 39, also comprising a wireless transmitter, which the learning function is adapted to use in order to signal to a user during a learning session that a voice command has been learnt by the learning function.
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41. The system of claim 40, in which the command generator, the processing device, or the processing device and command generator is adapted to receive signals from the medical implant and for using the wireless transmitter for transmitting said signals to a user.
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42. The system of claim 41, in which said transmitter is a radio transmitter or a sonic transmitter.
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43. The system of claim 34, in which the command input device is enclosed in a watertight casing, and in which the processing unit is also adapted to compensate for losses and distortions caused by this casing.
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44. The system of claim 34 being adapted to be implanted in the abdomen, thorax or the pelvic region of said mammal body.
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45. The system according to claim 34, further comprising at least one of at least one switch implantable in the patient for manually and non-invasively controlling the apparatus and a wireless remote control for non-invasively controlling the apparatus.
Specification