This paper presents a new method of human motion recognition based on MEMS inertial sensors data. A Micro Inertial Measurement Unit (??IMU) that is 56mm*23mm*15mm in size was built. This unit consists of three dimensional MEMS accelerometers, gyroscopes, a Bluetooth module and a MCU (Micro Controller Unit), which can record and transfer inertial data to a computer through serial port wirelessly. Five categories of human motion were done including walking, running, going upstairs, fall and standing. Fourier analysis was used to extract the feature from the human motion data. The concentrated information was finally used to categorize the human motions through HMM (Hidden Markov Model) process. Experimental results show that for the given 5 h...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
This paper describes a novel approach for human motion recognition via motion features extracted fro...
The future of human computer interaction systems lies in how intelligently these systems can take in...
This paper presents a new method of human motion recognition based on MEMS inertial sensors data. A ...
This paper presents multi-category human motion recognition methods based on MEMS inertial sensing d...
This paper presents multi-category human motion recognition methods based on MEMS inertial sensing d...
This paper describes a novel approach for human motion recognition via motion feature vectors collec...
This paper describes a novel approach for human motion recognition via motion feature vectors collec...
Knowledge about the current motion related activity of a person is information that is required or ...
This paper presents a method for pedestrian motionclassification based on MEMS inertial measurement ...
In this paper, a foot-mounted pedestrian navigation system using MEMS inertial sensors is implemente...
AbstractThis paper investigates the best feature parameter for human action recognition by using Hid...
A new type of Hidden Markov Model (HMM) developed based on the fuzzy clustering result is proposed f...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
When developing a fully automatic system for evaluating motor activities performed by a person, it i...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
This paper describes a novel approach for human motion recognition via motion features extracted fro...
The future of human computer interaction systems lies in how intelligently these systems can take in...
This paper presents a new method of human motion recognition based on MEMS inertial sensors data. A ...
This paper presents multi-category human motion recognition methods based on MEMS inertial sensing d...
This paper presents multi-category human motion recognition methods based on MEMS inertial sensing d...
This paper describes a novel approach for human motion recognition via motion feature vectors collec...
This paper describes a novel approach for human motion recognition via motion feature vectors collec...
Knowledge about the current motion related activity of a person is information that is required or ...
This paper presents a method for pedestrian motionclassification based on MEMS inertial measurement ...
In this paper, a foot-mounted pedestrian navigation system using MEMS inertial sensors is implemente...
AbstractThis paper investigates the best feature parameter for human action recognition by using Hid...
A new type of Hidden Markov Model (HMM) developed based on the fuzzy clustering result is proposed f...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
When developing a fully automatic system for evaluating motor activities performed by a person, it i...
Human activity recognition algorithms based on information obtained from wearable sensors are succes...
This paper describes a novel approach for human motion recognition via motion features extracted fro...
The future of human computer interaction systems lies in how intelligently these systems can take in...