Table A1.
List of FMG related publication.
| Reference | Title | Publication Type |
|---|---|---|
| Abboudi et al., 1999 [3] | A biomimetic controller for a multi-finger prosthesis | Journal |
| Curcie et al., 2001 [6] | Biomimetic finger control by filtering of distributed forelimb pressures | Journal |
| Craelius et al., 2002 [5] | The bionic man: restoring mobility | Journal |
| Phillips et al., 2005 [4] | Residual kinetic imaging: a versatile interface for prosthetic control | Journal |
| Amft et al., 2006 [8] | Sensing Muscle Activities with Body-Worn Sensors | Proceeding |
| Lukowicz et al., 2006 [7] | Detecting and Interpreting Muscle Activity with Wearable Force Sensors | Proceeding |
| Ogris et al., 2007 [9] | Using FSR-based muscule activity monitoring to recognize manipulative arm gestures | Proceeding |
| Wininger et al., 2008 [1] | Pressure signature of forearm as predictor of grip force | Journal |
| Wang et al., 2010 [37] | Biomechatronic approach to a multi-fingered hand prosthesis | Proceeding |
| Yungher et al., 2011 [47] | Surface muscle pressure as a measure of active and passive behavior of muscles during gait | Journal |
| Li et al., 2012 [13] | Combined Use of FSR Sensor Array and SVM Classifier for Finger Motion Recognition Based on Pressure Distribution Map | Journal |
| Bin et al., 2012 [73] | Multi-sensor arm rehabilitation monitoring device | Proceeding |
| Morganti et al., 2012 [24] | A Smart Watch with Embedded Sensors to Recognize Objects, Grasps and Forearm Gestures | Proceeding |
| Yungher et al., 2012 [34] | Improving fine motor function after brain injury using gesture recognition biofeedback | Journal |
| Castellini et al., 2012 [74] | Intention Gathering from Muscle Residual Activity for the Severely Disabled | Proceeding |
| Dementyev et al., 2014 [30] | WristFlex | Proceeding |
| Radmand et al., 2014 [12] | High-resolution muscle pressure mapping for upper-limb prosthetic control | Proceeding |
| Castellini et al., 2013 [75] | Using a high spatial resolution tactile sensor for intention detection | Proceeding |
| Xiao et al., 2014 [28] | Towards the development of a wearable feedback system for monitoring the activities of the upper-extremities | Journal |
| Carbonaro et al., 2014 [76] | An Innovative Multisensor Controlled Prosthetic Hand | Proceeding |
| Castellini et al., 2014 [10] | Proceedings of the first workshop on Peripheral Machine Interfaces: going beyond traditional surface electromyography | Journal |
| Castellini et al., 2014 [68] | A wearable low-cost device based upon Force-Sensing Resistors to detect single-finger forces | Proceeding |
| Ravindra et al., 2014 [35] | A Comparative Analysis of Three Non-Invasive Human-Machine Interfaces for the Disabled | Journal |
| Rasouli et al., 2015 [55] | Stable force-myographic control of a prosthetic hand using incremental learning | Proceeding |
| Sadarangani et al., 2015 [27] | A wearable sensor system for rehabilitation applications | Proceeding |
| Koiva et al., 2015 [77] | Shape conformable high spatial resolution tactile bracelet for detecting hand and wrist activity | Proceeding |
| Sanford et al., 2015 [78] | Surface EMG and intra-socket force measurement to control a prosthetic device | Proceeding |
| Chengani et al., 2016 [79] | Pilot study on strategies in sensor placement for robust hand/wrist gesture classification based on movement related changes in forearm volume | Proceeding |
| Cho et al., 2016 [41] | Force Myography to Control Robotic Upper Extremity Prostheses: A Feasibility Study | Journal |
| Connan et al., 2016 [23] | Assessment of a Wearable Force- and Electromyography Device and Comparison of the Related Signals for Myocontrol | Journal |
| Jiang et al., 2016 [50] | Ankle positions classification using force myography: An exploratory investigation | Proceeding |
| Jiang et al., 2016 [32] | Exploration of Force Myography and surface Electro Myography in Hand Gesture classification | Journal |
| Li et al., 2016 [56] | FMG-based body motion registration using piezoelectric sensors | Proceeding |
| Radmand et al., 2016 [46] | High-density force myography: A possible alternative for upper-limb prosthetic control | Journal |
| Yap et al., 2016 [38] | Design of a wearable FMG sensing system for user intent detection during hand rehabilitation with a soft robotic glove | Proceeding |
| Kadkhodayan et al., 2016 [70] | Continuous Prediction of Finger Movements Using Force Myography | Journal |
| Sakr et al., 2016 [69] | On the estimation of isometric wrist/forearm torque about three axes using Force Myography | Proceeding |
| Ahmadizadeh et al., 2017 [31] | Toward Intuitive Prosthetic Control: Solving Common Issues Using Force Myography, Surface Electromyography, and Pattern Recognition in a Pilot Case Study | Journal |
| Ferigo et al., 2017 [42] | A Case Study of a Force-myography Controlled Bionic Hand Mitigating Limb Position Effect | Journal |
| Ghataurah et al., 2017 [43] | A Multi-sensor Approach for Biomimetic Control of a Robotic Prosthetic Hand | Proceeding |
| Jaquier et al., 2017 [65] | Combining Electromyography and Tactile Myography to Improve Hand and Wrist Activity Detection in Prostheses | Journal |
| Nowak et al., 2017 [66] | Multi-modal myocontrol: Testing combined force- and electromyography | Proceeding |
| Sadarangani et al., 2017 [36] | Force Myography for Monitoring Grasping in Individuals with Stroke with Mild to Moderate Upper-Extremity Impairments: A Preliminary Investigation in a Controlled Environment | Journal |
| Sanford et al., 2017 [80] | Concurrent surface electromyography and force myography classification during times of prosthetic socket shift and user fatigue | Journal |
| Xiao et al., 2017 [45] | Performance of Forearm FMG and sEMG for Estimating Elbow, Forearm and Wrist Positions | Journal |
| Xiao et al., 2017 [29] | Counting Grasping Action Using Force Myography: An Exploratory Study with Healthy Individuals | Journal |
| Delva et al., 2017 [81] | FSR based Force Myography (FMG) Stability Throughout Non-Stationary Upper Extremity Tasks | Proceeding |
| Booth et al., 2018 [82] | A Wrist-Worn Piezoelectric Sensor Array for Gesture Input | Journal |
| Castellini et al., 2018 [14] | Tactile Myography: An Off-Line Assessment of Able-Bodied Subjects and One Upper-Limb Amputee | Journal |
| Delva et al., 2018 [83] | Investigation into the Potential to Create a Force Myography-based Smart-home Controller for Aging Populations | Proceeding |
| Ha et al., 2018 [57] | Force Myography Signal-Based Hand Gesture Classification for the Implementation of Real-Time Control System to a Prosthetic Hand | Proceeding |
| Fang et al., 2018 [58] | Fabrication, structure characterization, and performance testing of piezoelectret-film sensors for recording body motion | Journal |
| Fujiwara et al., 2018 [60] | Optical fiber force myography sensor for identification of hand postures | Journal |
| Fujiwara et al., 2018 [84] | Optical fiber force myography sensor for applications in prosthetic hand control | Proceeding |
| Godiyal et al., 2018 [26] | Force Myography Based Novel Strategy for Locomotion classification | Journal |
| Jiang et al., 2018 [85] | Force Exertion Affects Grasp classification Using Force Myography | Journal |
| Jiang et al., 2018 [51] | Exploration of Gait Parameters Affecting the Accuracy of Force Myography-Based Gait Phase Detection | Proceeding |
| Jiang et al., 2018 [67] | Virtual grasps recognition using fusion of Leap Motion and force myography | Journal |
| Truong et al., 2018 [59] | CapBand | Proceeding |
| Zhang et al., 2018 [86] | A Pilot Study on Using Forcemyography to Record Upper-limb Movements for Human-machine Interactive Control | Proceeding |
| Belyea et al., 2018 [48] | A Proportional Control Scheme for High Density Force Myography | Journal |
| Sadeghi et al., 2018 [33] | Regressing grasping using force myography: An exploratory study | Journal |
| Anvaripour et al., 2018 [62] | Hand gesture recognition using force myography of the forearm activities and optimized features | Proceeding |
| Godiyal et al., 2018 [49] | A force myography-based system for gait event detection in overground and ramp walking | Journal |
| Belbasis et al., 2018 [48] | Muscle performance investigated with a novel smart compression garment based on pressure sensor force myography and its validation against EMG | Journal |
| Esposito et al., 2018 [22] | A piezoresistive sensor to measure muscle contraction and mechanomyography | Journal |
| Sakr et al., 2018 [40] | Exploratory Evaluation of the Force Myography (FMG) Signals Usage for Admittance Control of a Linear Actuator | Proceeding |
| Stefanou et al., 2018 [72] | Wearable Tactile Sensor Brace for Motion Intent Recognition in Upper-Limb Rehabilitation | Proceeding |
| Ha et al., 2019 [87] | Performance of Forearm FMG for Estimating Hand Gestures and Prosthetic Hand Control | Journal |
| Xiao et al., 2019 [61] | Does force myography recorded at the wrist correlate to resistance load levels during bicep curls? | Journal |
| Xiao et al., 2019 [25] | An Investigation on the Sampling Frequency of the Upper-Limb Force Myographic Signals | Journal |
| Xiao et al., 2019 [39] | Towards an FMG based augmented musical instrument interface | Proceeding |
| Belyea et al., 2019 [71] | FMG vs EMG: A Comparison of Usability for Real-time Pattern Recognition Based Control | Journal |
| Anvaripour et al., 2019 [88] | Controlling robot gripper force by transferring human forearm stiffness using force myography | Proceeding |
| Herrera-Luna et al., 2019 [11] | Sensor Fusion Used in Applications for Hand Rehabilitation: a Systematic Review | Journal |
| Prakash et al., 2019 [44] | Novel force myography sensor to measure muscle contractions for controlling hand prostheses | Journal |