Observing and Clustering Coaching Behaviours to Inform the Design of a Personalised Robotic Coach

Adherence to repetitive rehabilitation exercises is important in motor recovery after stroke. Similarly, repetitive solo practice exercises can improve the skill level of sports players. In both of these scenarios, regular human coaching has benefits, but in practice, the required training is often carried out alone, resulting in lowered adherence. This work presents a mixed methodology approach, novel in the context of designing for HRI, towards informing the design of a personalised robotic coach for stroke rehabilitation and squash. Using observations of human-human interactions, we first obtained action sequences of behaviours exhibited by coaches and physiotherapists. We then clustered these action sequences into behaviour graphs, with each graph representing a coaching policy usable for robotic control. Next we obtained coaches’ and physiotherapists’ reflections on the graphs’ applicability to the real world. Finally, we provide an explanation of how the policies visualised in these graphs could be used for robotic control.

[1]  C. Cushion,et al.  An investigation of the effect of athletes’ age on the coaching behaviours of professional top-level youth soccer coaches , 2014, Journal of sports sciences.

[2]  B. Glaser The Constant Comparative Method of Qualitative Analysis , 1965 .

[3]  P. van Vliet,et al.  Comparison of the content of two physiotherapy approaches for stroke , 2001, Clinical rehabilitation.

[4]  Robyn L. Jones,et al.  'It's All About Getting Respect': The Coaching Behaviors of an Expert English Soccer Coach , 2002 .

[5]  Maja J. Mataric,et al.  Using Socially Assistive Human–Robot Interaction to Motivate Physical Exercise for Older Adults , 2012, Proceedings of the IEEE.

[6]  Stephen Harvey,et al.  A season long investigation into coaching behaviours as a function of practice state: the case of three collegiate coaches , 2013 .

[7]  Paul W. Darst,et al.  Analyzing Physical Education and Sport Instruction , 1989 .

[8]  Kristine K. Miller,et al.  Exercise after Stroke: Patient Adherence and Beliefs after Discharge from Rehabilitation , 2017, Topics in stroke rehabilitation.

[9]  Cynthia Breazeal,et al.  Affective Personalization of a Social Robot Tutor for Children's Second Language Skills , 2016, AAAI.

[10]  J. Sproule,et al.  The microstructure of coaching practice: behaviours and activities of an elite rugby union head coach during preparation and competition , 2016, Journal of sports sciences.

[11]  Ana Paiva,et al.  An ensemble inverse optimal control approach for robotic task learning and adaptation , 2019, Auton. Robots.

[12]  John Bartholomew,et al.  College Students' Motivation for Physical Activity: Differentiating Men's and Women's Motives for Sport Participation and Exercise , 2005, Journal of American college health : J of ACH.

[13]  A. Williams,et al.  An analysis of practice activities and instructional behaviours used by youth soccer coaches during practice: Exploring the link between science and application , 2010, Journal of sports sciences.

[14]  Anne Galletta,et al.  Mastering the Semi-Structured Interview and Beyond: From Research Design to Analysis and Publication , 2013 .

[15]  Rohan R. Paleja,et al.  Joint Goal and Strategy Inference across Heterogeneous Demonstrators via Reward Network Distillation , 2020, 2020 15th ACM/IEEE International Conference on Human-Robot Interaction (HRI).

[16]  Mark D. Dunlop,et al.  Supporting Sit-To-Stand Rehabilitation Using Smartphone Sensors and Arduino Haptic Feedback Modules , 2015, MobileHCI Adjunct.

[17]  Pedro Sáenz-López,et al.  Prediction of sport adherence through the influence of autonomy-supportive coaching among spanish adolescent athletes. , 2010, Journal of sports science & medicine.

[18]  Christopher J. Cushion,et al.  Understanding Power and the Coach’s Role in Professional English Soccer: A Preliminary Investigation of Coach Behaviour , 2007 .

[19]  Stefanos Nikolaidis,et al.  Efficient Model Learning for Human-Robot Collaborative Tasks , 2014, ArXiv.

[20]  Theodoros Georgiou,et al.  Applying the Participatory Design Workshop Method to Explore how Socially Assistive Robots Could Assist Stroke Survivors , 2020, HRI.

[21]  Lynne Baillie,et al.  Exploring & designing tools to enhance falls rehabilitation in the home , 2013, CHI.

[22]  Shelly Levy-Tzedek,et al.  A Social Robot for Rehabilitation: Expert Clinicians and Post-Stroke Patients’ Evaluation Following a Long-Term Intervention , 2020, 2020 15th ACM/IEEE International Conference on Human-Robot Interaction (HRI).

[23]  Anne Galletta,et al.  Mastering the Semi-Structured Interview and Beyond , 2017 .

[24]  P. Darst,et al.  Evolution of a Systematic Observation System: The ASU Coaching Observation Instrument , 1984 .

[25]  Susan Hillier,et al.  Rehabilitation for Community-Dwelling People with Stroke: Home or Centre Based? a Systematic Review , 2010, International journal of stroke : official journal of the International Stroke Society.

[26]  Wade D. Gilbert,et al.  An Integrative Definition of Coaching Effectiveness and Expertise , 2009 .

[27]  Ingo Lütkebohle,et al.  A robot as fitness companion: Towards an interactive action-based motivation model , 2014, The 23rd IEEE International Symposium on Robot and Human Interactive Communication.

[28]  Paul Bremner,et al.  Social Robots for Engagement in Rehabilitative Therapies: Design Implications from a Study with Therapists , 2018, 2018 13th ACM/IEEE International Conference on Human-Robot Interaction (HRI).

[29]  Maja J. Mataric,et al.  Using socially assistive robotics to augment motor task performance in individuals post-stroke , 2011, 2011 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[30]  Yael Niv,et al.  Operant Conditioning , 1971 .

[31]  Tony Belpaeme,et al.  Challenges of a Real-World HRI Study with Non-Native English Speakers: Can Personalisation Save the Day? , 2020, HRI.

[32]  C. Cushion,et al.  Performance during performance: using Goffman to understand the behaviours of elite youth football coaches during games , 2012 .

[33]  Ronit Feingold Polak,et al.  Social Robot for Rehabilitation: Expert Clinicians and Post-Stroke Patients' Evaluation Following a Long-Term Intervention , 2020 .

[34]  B. Abernethy,et al.  Learning from the Experts: Practice Activities of Expert Decision Makers in Sport , 2003, Research quarterly for exercise and sport.

[35]  Sayanti Roy,et al.  A Reinforcement Learning Model for Robots as Teachers* , 2018, 2018 27th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN).

[36]  Anind K. Dey,et al.  Maximum Entropy Inverse Reinforcement Learning , 2008, AAAI.

[37]  Robert Tibshirani,et al.  Estimating the number of clusters in a data set via the gap statistic , 2000 .

[38]  Stephen Harvey,et al.  Developing the Coach Analysis and Intervention System (CAIS): Establishing validity and reliability of a computerised systematic observation instrument , 2012, Journal of sports sciences.

[39]  Jürgen Pripfl,et al.  Lessons learned from the deployment of a long-term autonomous robot as companion in physical therapy for older adults with dementia a mixed methods study , 2016, 2016 11th ACM/IEEE International Conference on Human-Robot Interaction (HRI).

[40]  Gazihan Alankus,et al.  Towards customizable games for stroke rehabilitation , 2010, CHI.

[41]  Hadas Kress-Gazit,et al.  JESSIE: Synthesizing Social Robot Behaviors for Personalized Neurorehabilitation and Beyond , 2020, 2020 15th ACM/IEEE International Conference on Human-Robot Interaction (HRI).

[42]  E. Cope,et al.  A review of the use of a systematic observation method in coaching research between 1997 and 2016 , 2017, Journal of sports sciences.

[43]  C. Wolfe,et al.  The Concept of Patient Motivation: A Qualitative Analysis of Stroke Professionals’ Attitudes , 2002, Stroke.

[44]  Sally Davenport,et al.  Exploring the decision-making process in the delivery of physiotherapy in a stroke unit , 2015, Disability and rehabilitation.

[45]  Laura Olbrich Mural , 2021, Encyclopedic Dictionary of Archaeology.

[46]  P. Gorelick,et al.  The global burden of stroke: persistent and disabling , 2019, The Lancet Neurology.

[47]  Lynne Baillie,et al.  Using thermal stimuli to influence affect in different picture display sizes , 2017, Personal and Ubiquitous Computing.

[48]  Wijnand A. IJsselsteijn,et al.  Beyond Behavior: The Coach's Perspective on Technology in Health Coaching , 2019, CHI.

[49]  Séverin Lemaignan,et al.  Couch to 5km Robot Coach: An Autonomous, Human-Trained Socially Assistive Robot , 2020, HRI.

[50]  Hanafiah Yussof,et al.  Emergence of Socially Assistive Robotics in Rehabilitation for Children with Cerebral Palsy: A Review , 2016 .

[51]  C. Cushion,et al.  An investigation of the in-game behaviours of professional, top-level youth soccer coaches , 2006, Journal of sports sciences.