Workplace ergonomics – Boost human factors, ergonomics and productivity with customized solutions
Use the AnyBody Modeling System as your ergonomic analysis software and rapidly and cost efficiently improve the human factors and ergonomics of your workplace environments. Benefit from quantitative, objective, case-specific, data backed solutions that boost productivity and mitigate many short and long term health risks to your employees. Ergonomic analysis software comes in many variations, but with AnyBody you can extend conventional workplace ergonomics assessment standards with crucial biomechanical parameters as muscle activity and forces, joint reaction forces and metabolism. Benefit from additional biomechanical information offered by The AnyBody Modeling System as an ergonomic analysis software tool and analyse work situations with and without assistive devices such as exoskeletons and visualize and review the intervention effects.
Applications
“Thanks to the AnyBody Modeling System and the amazing supports from its engineers, we were able to successfully finish our patient repositioning project and publish two articles on top-tier journals. The AnyBody Modeling System helped us scaling the model according to the anthropometry of each subject, reconstructing kinematic movements and performing inverse dynamics analyses to estimate muscle forces and joint loads.”
Victor Zhou, Ergonomics researcher at Hillrom
Recent research
- Zadoń H, Michnik R, Nowakowska-Lipiec K, (2024), “Assessment of musculoskeletal loads among office workers due to predicted BMI increase”. Appl. Sci., vol. 14, pp. 8928. [ DOI, WWW ]
- Holl M, Tröster M, Rack R, Daub U, Schneider U, Bauernhansl T, Müller G, (2024), “Digitale Arbeitsmodelle und Methoden/Digital work models and methods – Transparency for the use of occupational exoskeletons as an ergonomic measure”. wt Werkstattstechnik online, vol. 114, pp. 59-65. [ DOI, WWW ]
- Xu J, Ji T, Yu J, Huang L, (2024), “Workload simulation and comfort evaluation of workover rig driller”. J. Phys. Conf. Ser., [ DOI, WWW ]
- Wang S, Feng C, Chen X, Shan M, Niu W, (2023), “A biomechanical evaluation of firefighters’ musculoskeletal loads when carrying self-contained breathing apparatus in walking and running”. J. Safety Res., [ DOI, WWW ]
- Dehghan P, Arjmand N, (2022), “The National Institute for Occupational Safety and Health (NIOSH) Recommended Weight Generates Different Spine Loads in Load-Handling Activity Performed Using Stoop, Semi-squat and Full-Squat Techniques; a Full-Body Musculoskeletal Model Study”. Hum. Factors, pp. 187208221141652. [ DOI, WWW ]
- Tröster M, Budde S, Maufroy C, Andersen MS, Rasmussen J, Schneider U, Bauernhansl T, (2022), “Biomechanical Analysis of Stoop and Free-Style Squat Lifting and Lowering with a Generic Back-Support Exoskeleton Model”, [ DOI, WWW ]
- Kong YK, Choi KH, Cho MU, Kim SY, Kim MJ, Shim JW, Park SS, Kim KR, Seo MT, Chae HS, Shim HH, (2022), “Ergonomic Assessment of a Lower-Limb Exoskeleton through Electromyography and Anybody Modeling System”, vol. 19, pp. 8088. [ DOI, WWW ]
- Skals SL (2021), “Musculoskeletal modelling of manual material handling in the supermarket sector“, Ph.D. Thesis, Aalborg University, Denmark.
- Skals S, Bláfoss R, de Zee M, Andersen LL, Andersen MS (2021), “Effects of load mass and position on the dynamic loading of the knees, shoulders and lumbar spine during lifting: a musculoskeletal modelling approach“, Appl. Ergon., vol. 96, pp. 103491. [DOI, WWW]
- Ghezelbash F, Shirazi-Adl A, Plamondon A, Arjmand N (2020), “Comparison of different lifting analysis tools in estimating lower spinal loads – Evaluation of NIOSH criterion“, J. Biomech., vol. 112, pp. 110024. [DOI]
- Larsen FG, Svenningsen FP, Andersen MS, de Zee M, Skals S (2020), “Estimation of Spinal Loading During Manual Materials Handling Using Inertial Motion Capture“, Ann. Biomed. Eng., vol. 48, pp. 805-821. [DOI]
- Wiggermann N, Zhou J, McGann N (2020), “Effect of Repositioning Aids and Patient Weight on Biomechanical Stresses When Repositioning Patients in Bed“, Hum. Factors, pp. 18720819895850. [DOI]
- Zhou J, Wiggermann N (2020), “The effects of hospital bed features on physical stresses on caregivers when repositioning patients in bed“, Appl. Ergon., vol. 90, pp. 103259. [DOI]
- Behjati M, Arjmand N (2018), “Biomechanical Assessment of the NIOSH Lifting Equation in Asymmetric Load-Handling Activities Using a Detailed Musculoskeletal Model“, Hum. Factors, vol. 61, pp. 18720818795038. [DOI]
Recent webcasts
- Digital Exonomics | ema2AnyBody & Captury2AnyBody
- Digital Exonomics | Musculoskeletal Exoskeleton Assessment with AnyBody
- Creating an ergonomic assessment – from recording, to a biomechanical analysis to report
- Musculoskeletal modeling of manual materials handling in the Danish supermarket sector
- Spinal Loading During Lifting Using Inertial Motion Capture
- Loading an aircraft: Validation of the lumbar spine model and analysis of lumbar loads in airport baggage handlers