BODY POSTURE DETECTION SYSTEM, SUIT AND METHOD
First Claim
1. A body posture detection system, comprising:
- an inertial measurement unit, mounted on a first portion of a human body, configured to sense an orientation vector of the first portion;
an ultrasonic module, comprising a first ultrasonic transceiver mounted on the first portion and a second ultrasonic transceiver mounted on a second portion of the human body; and
a processor, communicatively connected with the inertial measurement unit and the ultrasonic module, wherein the processor is configured to generate a candidate gesture range of the first portion according to the orientation vector sensed by the inertial measurement unit and to measure a distance between the first portion and the second portion according to an ultrasound transmitted between the first ultrasonic transceiver and the second ultrasonic transceiver;
wherein the processor is further configured to determine a current gesture of the first portion from the candidate gesture range according to the distance.
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Accused Products
Abstract
A body posture detection system includes an inertial measurement unit, at least two ultrasonic transceivers and a processor. The inertial measurement unit is configured to retrieve an orientation vector of a first portion of a human body. The ultrasonic transceivers are mounted on the first portion and a second portion of the human body respectively. The processor is configured to generate a candidate gesture range of the first portion according to the orientation vector. The processor is configured to measure a distance between the first portion and the second portion according to an ultrasound transmitted between the ultrasonic transceivers. The processor is further configured to determine a current gesture of the first portion from the candidate gesture range according to the distance.
13 Citations
17 Claims
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1. A body posture detection system, comprising:
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an inertial measurement unit, mounted on a first portion of a human body, configured to sense an orientation vector of the first portion; an ultrasonic module, comprising a first ultrasonic transceiver mounted on the first portion and a second ultrasonic transceiver mounted on a second portion of the human body; and a processor, communicatively connected with the inertial measurement unit and the ultrasonic module, wherein the processor is configured to generate a candidate gesture range of the first portion according to the orientation vector sensed by the inertial measurement unit and to measure a distance between the first portion and the second portion according to an ultrasound transmitted between the first ultrasonic transceiver and the second ultrasonic transceiver; wherein the processor is further configured to determine a current gesture of the first portion from the candidate gesture range according to the distance. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A body posture detection suit, comprising:
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a torso fitting component; a plurality of limb fitting components, connected to the torso fitting component; a plurality of inertial measurement units, disposed on the torso fitting component and the limb fitting components respectively, configured to sense orientation vectors of the torso fitting component or the limb fitting components; a plurality of ultrasonic transceivers, disposed on multiple reference points on the limb fitting components, configured to send ultrasounds and to receive the ultrasounds respectively; and a processor, in communication with the inertial measurement units and the ultrasonic transceivers, configured to measure distances among these reference points according to flight times of the ultrasounds, retrieve the orientation vectors, and generate a current gesture of the limb fitting components in combination with the torso fitting component according to the orientation vectors and the distances. - View Dependent Claims (8, 9, 10, 11)
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12. A body posture detection method, applied on a human body, wherein the body posture detection method comprises:
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sensing, by an inertial measurement unit, an orientation vector of a first portion of the human body; measuring, by a processor, a distance between a first portion of the human body and a second portion of the human body according to an ultrasound transmitted between a first ultrasonic transceiver mounted on the first portion and a second ultrasonic transceiver mounted on the second portion; generating, by the processor, a candidate gesture range of the first portion according to the orientation vector sensed by the inertial measurement unit; and determining a current gesture of the first portion from the candidate gesture range according to the distance. - View Dependent Claims (13, 14, 15, 16, 17)
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Specification