Arnab Chanda, Shubham Gupta & Subhodip ChatterjeeArnab Chanda, Shubham Gupta & Subhodip Chatterjee. 2024. Footwear Traction. Footwear Traction
21
30
.
Kurt E. Beschorner, Arnab Chanda, Brian E. Moyer, Alexander Reasinger, Sarah C. Griffin & Isaiah M. Johnston. (2023) Validating the ability of a portable shoe-floor friction testing device, NextSTEPS, to predict human slips. Applied Ergonomics 106, pages 103854.
Crossref
In-Ju KimIn-Ju Kim. 2022. Engineering Metrology for Pedestrian Falls Prevention and Protection. Engineering Metrology for Pedestrian Falls Prevention and Protection
451
471
.
In-Ju KimIn-Ju Kim. 2022. Engineering Metrology for Pedestrian Falls Prevention and Protection. Engineering Metrology for Pedestrian Falls Prevention and Protection
3
25
.
Jasmine C. Menant, Hylton B. Menz & Carly Chaplin. 2021. Falls in Older People. Falls in Older People
51
86
.
Liana M. Tennant, Donna J. Fok, David C. Kingston, Taylor B. Winberg, Rob J. Parkinson, Andrew C. Laing & Jack P. Callaghan. (2021) Analysis of invoked slips while wearing flip-flops in wet and dry conditions: Does alternative footwear alter slip kinematics?. Applied Ergonomics 92, pages 103318.
Crossref
S.R. Lewis, K. Hallas, B. Keen, G. Hunwin, R. Shaw & M.J. Carré. (2020) Development of a new shoe/floor slip resistance test rig. Tribology International 151, pages 106500.
Crossref
Jie Li, Floris Goerlandt & Kai Way Li. (2019) Slip and Fall Incidents at Work: A Visual Analytics Analysis of the Research Domain. International Journal of Environmental Research and Public Health 16:24, pages 4972.
Crossref
Mitja Trkov, Kuo Chen, Jingang Yi & Tao Liu. (2019) Inertial Sensor-Based Slip Detection in Human Walking. IEEE Transactions on Automation Science and Engineering 16:3, pages 1399-1411.
Crossref
In-Ju Kim. (2018) Understanding Friction and Wear Behaviours of Smooth Resilient Surfaces: Application for Pedestrian Fall Safety Improvements. Advances in Materials Science and Engineering 2018, pages 1-10.
Crossref
Andrew Sawers, Yi-Chung (Clive) PaiTanvi BhattLena H. Ting. (2017) Neuromuscular responses differ between slip-induced falls and recoveries in older adults. Journal of Neurophysiology 117:2, pages 509-522.
Crossref
In-Ju KimIn-Ju Kim. 2017. Pedestrian Fall Safety Assessments. Pedestrian Fall Safety Assessments
199
224
.
In-Ju KimIn-Ju Kim. 2017. Pedestrian Fall Safety Assessments. Pedestrian Fall Safety Assessments
95
119
.
In-Ju KimIn-Ju Kim. 2017. Pedestrian Fall Safety Assessments. Pedestrian Fall Safety Assessments
67
94
.
In-Ju KimIn-Ju Kim. 2017. Pedestrian Fall Safety Assessments. Pedestrian Fall Safety Assessments
17
65
.
Kenneth Nemire, Daniel A. Johnson & Keith Vidal. (2016) The science behind codes and standards for safe walkways: Changes in level, stairways, stair handrails and slip resistance. Applied Ergonomics 52, pages 309-316.
Crossref
G. MartinoY. P. IvanenkoA. d'AvellaM. SerraoA. Ranavolo, F. Draicchio, G. CappelliniC. CasaliF. Lacquaniti. (2015) Neuromuscular adjustments of gait associated with unstable conditions. Journal of Neurophysiology 114:5, pages 2867-2882.
Crossref
Alyssa J. Schnorenberg, Naira H. Campbell-Kyureghyan & Kurt E. Beschorner. (2015) Biomechanical response to ladder slipping events: Effects of hand placement. Journal of Biomechanics 48:14, pages 3810-3815.
Crossref
Takeshi Yamaguchi, Jennifer Hsu, Yue Li & Brian E. Maki. (2015) Efficacy of a rubber outsole with a hybrid surface pattern for preventing slips on icy surfaces. Applied Ergonomics 51, pages 9-17.
Crossref
Harish Chander, John C. Garner & Chip Wade. (2015) Heel contact dynamics in alternative footwear during slip events. International Journal of Industrial Ergonomics 48, pages 158-166.
Crossref
Takeshi YAMAGUCHI & Kazuo HOKKIRIGAWA. (2014) Development of a High Slip-resistant Footwear Outsole Using a Hybrid Rubber Surface Pattern. Industrial Health 52:5, pages 414-423.
Crossref
Carlton J. Reeves, Pradeep L. Menezes, Michael R. Lovell & Tien-Chien Jen. 2013. Tribology for Scientists and Engineers. Tribology for Scientists and Engineers
921
948
.
Caitlin T. Moore, Pradeep L. Menezes, Michael R. Lovell & Kurt E. Beschorner. (2012) Analysis of Shoe Friction During Sliding Against Floor Material: Role of Fluid Contaminant. Journal of Tribology 134:4.
Crossref
Jamshidi Nima & Salami Firooz. (2012) Clinical assessment of dynamic coefficient of friction effects in shoe-sole trituration of patients with drop foot. Australasian Physical & Engineering Sciences in Medicine 35:2, pages 187-191.
Crossref
Takeshi Yamaguchi, Tomoki Umetsu, Yusuke Ishizuka, Kenichi Kasuga, Takayuki Ito, Satoru Ishizawa & Kazuo Hokkirigawa. (2012) Development of new footwear sole surface pattern for prevention of slip-related falls. Safety Science 50:4, pages 986-994.
Crossref
Sean T. Osis, Jay T. Worobets & Darren J. Stefanyshyn. (2011) Early Heelstrike Kinetics Are Indicative of Slip Potential During Walking Over a Contaminated Surface. Human Factors: The Journal of the Human Factors and Ergonomics Society 54:1, pages 5-13.
Crossref
Mark G. Blanchette, John R. Brault & Christopher M. Powers. (2011) The influence of heel height on utilized coefficient of friction during walking. Gait & Posture 34:1, pages 107-110.
Crossref
Andrew J. Clark & Timothy E. Higham. (2011) Slipping, sliding and stability: locomotor strategies for overcoming low-friction surfaces. Journal of Experimental Biology 214:8, pages 1369-1378.
Crossref
Umar Asif & Javaid Iqbal. (2015) A Comparative Study of Biologically Inspired Walking Gaits through Waypoint Navigation. Advances in Mechanical Engineering 3, pages 737403.
Crossref
James W. Collins, Jennifer L. Bell & Raoul Grönqvist. (2010) Developing Evidence-Based Interventions to Address the Leading Causes of Workers' Compensation Among Healthcare Workers. Rehabilitation Nursing 35:6, pages 225-235.
Crossref
Kanako Miura, Shin'ichiro Nakaoka, Mitsuharu Morisawa, Fumio Kanehiro, Kensuke Harada & Shuuji Kajita. (2010) Analysis on a friction based “twirl” for biped robots. Analysis on a friction based “twirl” for biped robots.
Germana CappelliniYuri P. IvanenkoNadia Dominici, Richard E. Poppele & Francesco Lacquaniti. (2010) Motor Patterns During Walking on a Slippery Walkway. Journal of Neurophysiology 103:2, pages 746-760.
Crossref
Wen-Ruey Chang, Christopher Brunette & Chien-Chi Chang. (2010) Development of an objective determination of a slip with a portable inclineable articulated strut slip tester (PIAST). Safety Science 48:1, pages 100-109.
Crossref
Kai Way Li, Wen-Ruey Chang & Chien-Chi Chang. (2009) Evaluation of two models of a slipmeter. Safety Science 47:10, pages 1434-1439.
Crossref
Daniel Tik-Pui Fong, Youlian Hong & Jing-Xian Li. (2009) Human walks carefully when the ground dynamic coefficient of friction drops below 0.41. Safety Science 47:10, pages 1429-1433.
Crossref
Leslie Decker, Jeremy J. Houser, John M. Noble, Gregory M. Karst & Nicholas Stergiou. (2009) The effects of shoe traction and obstacle height on lower extremity coordination dynamics during walking. Applied Ergonomics 40:5, pages 895-903.
Crossref
Kai Way Li, Wen-Ruey Chang & Chien-Chi Chang. (2009) The Reliability of a Friction Measurement Device on the Assessment of Slip & Fall Risk. The Reliability of a Friction Measurement Device on the Assessment of Slip & Fall Risk.
K. Miura, S. Nakaoka, M. Morisawa, K. Harada & S. Kajita. (2008) A friction based “twirl” for biped robots. A friction based “twirl” for biped robots.
Raymond W. McGorry, Chien-Chi Chang & Angela DiDomenico. (2008) Rearward movement of the heel at heel strike. Applied Ergonomics 39:6, pages 678-684.
Crossref
Wen-Ruey Chang, Chien-Chi Chang, Simon Matz & Mary F. Lesch. (2008) A methodology to quantify the stochastic distribution of friction coefficient required for level walking. Applied Ergonomics 39:6, pages 766-771.
Crossref
Angela DiDomenico, Raymond W. McGorry & Chien-Chi Chang. (2007) Association of subjective ratings of slipperiness to heel displacement following contact with the floor. Applied Ergonomics 38:5, pages 533-539.
Crossref
Raymond W. McGorry, Angela DiDomenico & Chien-Chi Chang. (2007) The use of a heel-mounted accelerometer as an adjunct measure of slip distance. Applied Ergonomics 38:3, pages 369-376.
Crossref
Christopher M. Powers, John R. Brault, Maria A. Stefanou, Yi‐Ju Tsai, Jim Flynn & Gunter P. Siegmund. (2007) Assessment of Walkway Tribometer Readings in Evaluating Slip Resistance: A Gait‐Based Approach. Journal of Forensic Sciences 52:2, pages 400-405.
Crossref
Stephen R. Lord, Catherine Sherrington, Hylton B. Menz & Jacqueline C. T. Close. 2010. Falls in Older People. Falls in Older People
50
69
.
Simon Bouisset, Serge Le Bozec & Christian Ribreau. 2006. Motor Control and Learning. Motor Control and Learning
27
43
.
Raoul Gronqvist. 2005. Understanding and Preventing Falls. Understanding and Preventing Falls
15
50
.
Angela DiDomenico, Raymond W. McGorry & Chien-Chi Chang. (2016) Biomechanics of a Micro-Slip. Proceedings of the Human Factors and Ergonomics Society Annual Meeting 49:14, pages 1297-1301.
Crossref
Carita Aschan, Mikko Hirvonen, Erkki Rajamäki & Tarmo Mannelin. (2005) Slip resistance of oil resistant and non-oil resistant footwear outsoles in winter conditions. Safety Science 43:7, pages 373-389.
Crossref
DANIEL TIK-PUI FONG, YOULIAN HONG & JING XIAN LI. (2005) Lower-Extremity Gait Kinematics on Slippery Surfaces in Construction Worksites. Medicine & Science in Sports & Exercise 37:3, pages 447-454.
Crossref
Angela DiDomenico & Raymond W. McGorry. (2016) Relationship between Slip Distance and Perceptions of Slipperiness and Stability. Proceedings of the Human Factors and Ergonomics Society Annual Meeting 48:12, pages 1449-1453.
Crossref
Lars I.E Oddsson, Conrad WallIIIIII, Michael D McPartland, David E Krebs & Carole A Tucker. (2004) Recovery from perturbations during paced walking. Gait & Posture 19:1, pages 24-34.
Crossref
Tadayoshi Asaka, Hiroshi Saito, Yuji Takamori, Akiko Yokoyama, Toshikazu Takamori & Junko Fukushima. (2004) Gait Control in Young Adults Trained on a Low Friction Floor. Journal of Physical Therapy Science 16:2, pages 151-158.
Crossref
S. Kajita, K. Kaneko, K. Harada, F. Kaniehiro, K. Fujiwara & H. Hirukawa. (2004) Biped walking on a low friction floor. Biped walking on a low friction floor.
Rohae Myung. (2003) Use of backward slip to predict falls in friction test protocols. International Journal of Industrial Ergonomics 32:5, pages 319-329.
Crossref
Lindy Clemson, Debra Manor & Maureen H. Fitzgerald. (2016) Behavioral Factors Contributing to Older Adults Falling in Public Places. OTJR: Occupation, Participation and Health 23:3, pages 107-117.
Crossref
MI Marpet & MA SapienzaH Nagata. 2003. Metrology of Pedestrian Locomotion and Slip Resistance. Metrology of Pedestrian Locomotion and Slip Resistance
58
66
.
MI Marpet & MA SapienzaI-J Kim & S Richard. 2003. Metrology of Pedestrian Locomotion and Slip Resistance. Metrology of Pedestrian Locomotion and Slip Resistance
33
48
.
Lennart Strandberg, Rohae Myung, Robert Brungraber, Sylvie Leclercq, Raoul Grönqvist, Wen-Ruey Chang, Steve Thorpe, Ulrich Mattke & Lasse Makkonen. 2002. Measuring Slipperiness. Measuring Slipperiness
119
134
.
Clive Pai, Simon Hsiang, Thurmon Lockhart, Gunvor Gard, John Abeysekera, Raoul Grönqvist, Dava Newman, Krystyna Gielo-Perczak & Tom B.Leamon. 2002. Measuring Slipperiness. Measuring Slipperiness
67
99
.
Mikko Hirvonen, Mark S.Redfern, Mark Marpet, Håkan Lanshammar, Raoul Grönqvist, Christopher Powers, Clive Yi-Chung Pai, Krystyna Gielo-Perczak & Rakié Cham. 2002. Measuring Slipperiness. Measuring Slipperiness
37
65
.
Theodore Courtney, Mary Ann Holbein-Jenny, Gary Sorock, James Collins & Derek Manning. 2002. Measuring Slipperiness. Measuring Slipperiness
17
36
.
Simon M Hsiang & Chienchi Chang. (2002) The effect of gait speed and load carrying on the reliability of ground reaction forces. Safety Science 40:7-8, pages 639-657.
Crossref
Wen-Ruey Chang. (2002) The effects of slip criterion and time on friction measurements. Safety Science 40:7-8, pages 593-611.
Crossref
Tadayoshi Asaka, Hiroshi Saito, Naoki Yoshida, Daisuke Urakami, Koji Kamada & Junko Fukushima. (2002) Relationship between the Required Coefficient of Friction and Gait Initiation in Young Adults on a Low Friction Floor.. Journal of Physical Therapy Science 14:1, pages 33-39.
Crossref
Wen-Ruey Chang & Simon Matz. (2001) The slip resistance of common footwear materials measured with two slipmeters. Applied Ergonomics 32:6, pages 549-558.
Crossref
You-Li Chou, Jia-Yuan You, Chii-Jeng Lin, Fong-Chin Su & Pei-Hsi Chou. (2011) The Dynamics of Balance Control During Slipping. Journal of Mechanics 17:2, pages 69-78.
Crossref
Paul Lehane & David Stubbs. (2001) The perceptions of managers and accident subjects in the service industries towards slip and trip accidents. Applied Ergonomics 32:2, pages 119-126.
Crossref
PEI-HSI CHOUYOU-LI CHOUSHANG-LIN LEEJIA-YUAN YOUFONG-CHIN SUHSIEH-CHIN CHEN. (2012) KINEMATICAL STRATEGY TO REGAIN BALANCE DURING A FORWARD FALL ON A SLIPPERY FLOOR. Biomedical Engineering: Applications, Basis and Communications 13:01, pages 27-32.
Crossref
You-Li Chou, Jia-Yuan You, Chii-Jeng Lin, Fong-Chin Su & Pei-Hsi Chou. (2011) The Modified Gait Patterns During Stepping on Slippery Floor. Journal of Mechanics 16:4, pages 227-233.
Crossref
Rakié Cham, Mark Musolino & Mark S. Redfern. (2016) Heel Contact Dynamics during Slip Events. Proceedings of the Human Factors and Ergonomics Society Annual Meeting 44:28, pages 514-517.
Crossref
Tom B. Leamon. 2000. Ergonomics Guidelines and Problem Solving. Ergonomics Guidelines and Problem Solving
183
188
.
S Leclercq. (2000) In-company same- and low-level falls: From an understanding of such accidents to their prevention. International Journal of Industrial Ergonomics 25:1, pages 59-67.
Crossref
M Lortie & P Rizzo. (1999) Reporting and classification of loss of balance accidents. Safety Science 33:1-2, pages 69-85.
Crossref
S. Leclercq. (1999) The prevention of slipping accidents: a review and discussion of work related to the methodology of measuring slip resistance. Safety Science 31:2, pages 95-125.
Crossref
Wen-Ruey Chang. (1998) The effect of surface roughness on dynamic friction between neolite and quarry tile. Safety Science 29:2, pages 89-105.
Crossref
Kai Way Li. (2006) Prevention of Work‐Related Falling/Slipping Accidents in Taiwan. Journal of Occupational Health 39:1, pages 75-79.
Crossref
FL BuczekJrJr & SA Banks. (1996) High-Resolution Force Plate Analysis of Utilized Slip Resistance in Human Walking. Journal of Testing and Evaluation 24:6, pages 353-358.
Crossref
Lee-Jean Lin, Fu-Tien Chiou & H.Harvey Cohen. (1995) Slip and fall accident prevention: A review of research, practice, and regulations. Journal of Safety Research 26:4, pages 203-212.
Crossref
D.P. Manning & C. Jones. (1995) High heels and polished floors: The ultimate challenge in research on slip-resistance. Safety Science 19:1, pages 19-29.
Crossref
D.A. Schieb. (1995) Walkway surface heights and ground reaction forces. Walkway surface heights and ground reaction forces.
W. Marletta. (1995) The effects of wetness on coefficient of friction measurement evaluated with three slip testers with varied residence times on selected materials. The effects of wetness on coefficient of friction measurement evaluated with three slip testers with varied residence times on selected materials.
William English. 1994. Materials & Equipment/Whitewares: Ceramic Engineering and Science Proceedings, Volume 13, Issue 1/2. Materials & Equipment/Whitewares: Ceramic Engineering and Science Proceedings, Volume 13, Issue 1/2
22
28
.
Hisao Nagata. (1993) Fatal and non-fatal falls — a review of earlier articles and their developments. Safety Science 16:3-4, pages 379-390.
Crossref
Rohae Myung, James L. Smith & Tom B. Leamon. (2016) Slip Distance as an Objective Criterion to Determine the Dominant Parameter between Static and Dynamic Cofs. Proceedings of the Human Factors Society Annual Meeting 36:10, pages 738-741.
Crossref
Tom B. Leamon. (1992) The reduction of slip and fall injuries: Part II — The scientific basis (knowledge base) for the guide. International Journal of Industrial Ergonomics 10:1-2, pages 29-34.
Crossref
G.A. Kime. (1991) Slip resistance and the UK Slip Resistance Research Group. Safety Science 14:3-4, pages 223-229.
Crossref
Tom B. Leamon & Kai Way Li. (2016) Load Carrying and Slip Length. Proceedings of the Human Factors Society Annual Meeting 35:15, pages 1159-1161.
Crossref
James M. Miller, Mark R. Lehto & Timothy P. Rhoades. (1991) Prediction of slip resistance in climbing systems. International Journal of Industrial Ergonomics 7:4, pages 287-301.
Crossref
A. Ertas, C.W. Malone, J.C. Jones & T.B. Leamon. (1991) Design and development of a fall arresting robot. Mechatronics 1:2, pages 175-186.
Crossref
Raoul Grönqvist, Jouko Roine, Eero Korhonen & Ahti Rahikainen. (1990) Slip resistance versus surface roughness of deck and other underfoot surfaces in ships. Journal of Occupational Accidents 13:4, pages 291-302.
Crossref
A. Ertas, C.W. Malone, J.C. Jones & T.B. Leamon. (1990) Design and development of a fall arresting system. Journal of Safety Research 21:3, pages 97-102.
Crossref
M.S. Redfern, A. Marcotte & D.B. Chaffin. (1990) A dynamic coefficient of friction measurement device for shoe/floor interface testing. Journal of Safety Research 21:2, pages 61-65.
Crossref
BE GrayFL Buczek, PR Cavanagh, BT Kulakowski & P Pradhan. 1990. Slips, Stumbles, and Falls: Pedestrian Footwear and Surfaces. Slips, Stumbles, and Falls: Pedestrian Footwear and Surfaces
39
54
.
Mark S. Redfern. (2016) Factors Influencing the Measurement of Slipperiness. Proceedings of the Human Factors Society Annual Meeting 32:9, pages 545-548.
Crossref
James M. Miller, Timothy P. Rhoades & Mark R. Lehto. Slip Resistance Predictions for Various Metal Step Materials, Shoe Soles and Contaminant Conditions. Slip Resistance Predictions for Various Metal Step Materials, Shoe Soles and Contaminant Conditions.
Mark R. Lehto & James M. Miller. (1987) Scientific knowledge acquisition during the extension of GSA: An expert system for generic safety analysis. International Journal of Industrial Ergonomics 2:1, pages 61-75.
Crossref
M. Bruce, C. Jones & D.P. Manning. (1986) Slip-resistance on icy surfaces of shoes, crampons and chains — A new machine. Journal of Occupational Accidents 7:4, pages 273-283.
Crossref
D. P. MANNING, J. E. COOPER, I. STIRLING, C. M. JONES, M. BRUCE & P. C. McCAUSLAND. (2017) Studies on the Footpads of the Polar Bear (Ursus Maritimus) and their Possible Relevance to Accident Prevention. Journal of Hand Surgery 10:3, pages 303-307.
Crossref