Nome |
# |
Ricerca, imprenditorialità e innovazione nelle scienze della vita, file e40f7b84-df43-afca-e053-6605fe0aeaf2
|
1.261
|
Preliminary analysis of low-cost motion capture techniques to support virtual ergonomics, file e40f7b84-2ca8-afca-e053-6605fe0aeaf2
|
1.188
|
Proceedings of the 2014 International Conference on Innovative design and manufacturing (ICIDM), file e40f7b84-5cee-afca-e053-6605fe0aeaf2
|
1.061
|
Enhancement in Industrial PSS design based on TRIZ: a case study, file e40f7b84-199e-afca-e053-6605fe0aeaf2
|
540
|
Industrial application of DHM for ergonomics driven by low cost mocap solutions, file e40f7b84-2c29-afca-e053-6605fe0aeaf2
|
296
|
Proceedings of the 2014 International Conference on Innovative design and manufacturing (ICIDM), file e40f7b84-4b26-afca-e053-6605fe0aeaf2
|
279
|
Topology Optimization using Explicit Stress Tensor Analysis, file e40f7b88-5b92-afca-e053-6605fe0aeaf2
|
254
|
A methodology for virtual assessment of product ergonomics, file e40f7b84-dcff-afca-e053-6605fe0aeaf2
|
222
|
A state-of-the-art review of FMEA/FMECA including patents, file e40f7b8a-160d-afca-e053-6605fe0aeaf2
|
148
|
Digital Motion Acquisition to Assess Spinal Cord Injured (SCI) Patients, file e40f7b88-433d-afca-e053-6605fe0aeaf2
|
144
|
Virtual Patient to Assess Prosthetic Devices, file e40f7b84-4c80-afca-e053-6605fe0aeaf2
|
143
|
DHM to Investigate Product Ergonomics and Visual Representation of Results, file e40f7b84-5417-afca-e053-6605fe0aeaf2
|
142
|
VR Serious Games for Neuro-cognitive Rehabilitation of Patients with Severe Memory Loss, file e40f7b89-c51d-afca-e053-6605fe0aeaf2
|
125
|
Acquisition of customer’s tailor measurements for 3D clothing design using virtual reality devices, file e40f7b8a-4723-afca-e053-6605fe0aeaf2
|
120
|
Additive manufacturing to advance functional design: an application in the medical field, file e40f7b8a-51f4-afca-e053-6605fe0aeaf2
|
119
|
Tracking and Characterization of Spinal Cord-Injured Patients by Means of RGB-D Sensors, file e40f7b89-6bc6-afca-e053-6605fe0aeaf2
|
108
|
Sustainability in Healthcare: Methods and Tools for the Assessment, file bb4b66cc-a38b-4338-96bc-d5cadbda5147
|
103
|
Collaborative workcell in industrial assembly process with online ergonomics monitoring, file 0d57154d-b0f2-432b-b2c5-1c131f84641a
|
91
|
3D interactive environment for the design of medical devices, file e40f7b8a-09d5-afca-e053-6605fe0aeaf2
|
87
|
Quantitative assessment of upper limb rehabilitation through digital motion acquisition, file e40f7b8a-d9a6-afca-e053-6605fe0aeaf2
|
86
|
An investigation of innovative 3D modelling procedures for patient-specific total knee arthroplasty, file e40f7b8a-e84e-afca-e053-6605fe0aeaf2
|
77
|
Mixed reality to design lower limb prosthesis, file e40f7b8a-0c6d-afca-e053-6605fe0aeaf2
|
32
|
Usability of a continuous oxygen saturation device for home telemonitoring, file 6d8a20cd-ee0b-4013-a045-8d10bfc39f28
|
27
|
Neuro-cognitive Rehabilitation: Design of VR Serious Games for Patients with Severe Memory Loss, file e40f7b89-a162-afca-e053-6605fe0aeaf2
|
27
|
Digital Human in Engineering and Bioengineering Applications, file e40f7b84-33cc-afca-e053-6605fe0aeaf2
|
11
|
Imprenditorialità nelle Life Science. Un'indagine preliminare, file e40f7b87-88b1-afca-e053-6605fe0aeaf2
|
10
|
A knowledge based application to enhance fired heater design, file e40f7b84-12ac-afca-e053-6605fe0aeaf2
|
6
|
Multi criteria material selection for Eco-design, file e40f7b84-6187-afca-e053-6605fe0aeaf2
|
6
|
A state-of-the-art review of FMEA/FMECA including patents, file e40f7b86-5142-afca-e053-6605fe0aeaf2
|
6
|
Structural optimization strategies to design green products, file e40f7b84-4f70-afca-e053-6605fe0aeaf2
|
5
|
Inventive guidelines for a TRIZ-based eco-design matrix, file e40f7b84-4f86-afca-e053-6605fe0aeaf2
|
5
|
Is TRIZ an Ecodesign method?, file e40f7b85-33c2-afca-e053-6605fe0aeaf2
|
5
|
Knowledge management and customised 3D modelling to improve prosthesis design, file e40f7b89-7118-afca-e053-6605fe0aeaf2
|
5
|
Comparative Analysis of Convolutional Neural Network Architectures for Automated Knee Segmentation in Medical Imaging: A Performance Evaluation, file 38cc03b4-bed1-43dc-83ee-7407c5538733
|
4
|
Manual tasks real-time ergonomic evaluation for collaborative robotics, file 6b166075-431c-41a9-960a-9b2f8a16957f
|
4
|
A Virtual Human for Lower Limb Prosthesis Set-Up, file e40f7b84-2821-afca-e053-6605fe0aeaf2
|
4
|
Structural Optimization in Multilevel Design, file e40f7b86-8dcb-afca-e053-6605fe0aeaf2
|
4
|
Multilevel topology optimization, file e40f7b87-1ddc-afca-e053-6605fe0aeaf2
|
4
|
Truss design and optimization using stress analysis and NURBS curves, file e40f7b88-8555-afca-e053-6605fe0aeaf2
|
4
|
ICT technologies for motor skills rehabilitation after stroke, file e40f7b89-73a2-afca-e053-6605fe0aeaf2
|
4
|
A 3D Modeling Approach to Realize and Test Customized Knee Implants, file 2e52cd36-90b4-45e5-96fb-e43a0371f536
|
3
|
Morphological evaluation of shoulder instability: a customized module, file 46e2be2c-10b1-4853-804f-7869d9769863
|
3
|
A Comparison of CNN Models for Automated Femur Segmentation Based on DICOM Images, file 5f2c8365-3e44-45ca-8118-3baca7a5e45c
|
3
|
ACL Morsky: Semi-automatic Tool for Assessing the Risk of Developing an Anterior Cruciate Ligament Injury, file 7d1bd6a9-bfa8-48c8-b1ff-68adbfe47bf8
|
3
|
Human Modelling and Design of Custom-Made Knee Implants: Definition of an Automatic Procedure, file 92654cbd-fd9f-4a39-b9af-47d6991a6780
|
3
|
A design procedure for the development of VR platforms for the rehabilitation of patients after stroke, file 9478e6a3-d375-4450-a728-dd22ea63c9fb
|
3
|
Finite Element Simulations Integrated in Design Automated Procedures, file e40f7b84-13c4-afca-e053-6605fe0aeaf2
|
3
|
Design procedure and rules to configure lower limb prosthesis, file e40f7b84-2824-afca-e053-6605fe0aeaf2
|
3
|
A preliminary study of new interaction devices to enhance virtual socket design, file e40f7b84-3829-afca-e053-6605fe0aeaf2
|
3
|
Digital human models and virtual ergonomics to improve maintainability, file e40f7b84-3c00-afca-e053-6605fe0aeaf2
|
3
|
An ECO-DESIGN approach based on structural optimization in a CAD framework, file e40f7b84-4a42-afca-e053-6605fe0aeaf2
|
3
|
FE Analysis of contact between residual limb and socket during simulation of amputee motion, file e40f7b84-62e2-afca-e053-6605fe0aeaf2
|
3
|
Multi-material design and 3D printing method of lower limb prosthetic sockets, file e40f7b84-d2ea-afca-e053-6605fe0aeaf2
|
3
|
Mixed Reality to Design Lower Limb Prosthesis, file e40f7b84-dcfd-afca-e053-6605fe0aeaf2
|
3
|
Towards Automatic Gait Assessment by Means of RGB-D Mocap, file e40f7b84-e7ed-afca-e053-6605fe0aeaf2
|
3
|
TRIZ Based Computer Aided LCA for Ecodesign, file e40f7b85-36fd-afca-e053-6605fe0aeaf2
|
3
|
A Topology Optimization Approach Using Explicit Stress Tensor Analysis and NURBS Curves, file e40f7b88-20c2-afca-e053-6605fe0aeaf2
|
3
|
A virtual platform for lower limb prosthesis design and assessment, file e40f7b88-fafc-afca-e053-6605fe0aeaf2
|
3
|
Medical assessment test of extrapersonal neglect using virtual reality: A preliminary study, file e40f7b89-6d52-afca-e053-6605fe0aeaf2
|
3
|
Markerless Motion Capture and Virtual Reality for Real-Time Ergonomic Analysis of Operators in Workstations with Collaborative Robots: a preliminary study, file 1e415bbf-6ece-4611-9a68-4ef7cb592b28
|
2
|
Exploring Quantitative Methodologies for Assessing the Environmental, Social, and Economic Impacts of Telemedicine: A Literature Review, file 90e2cc47-cbfd-49c7-83f2-0257dd85ec19
|
2
|
Evaluation of Clinical and Technical Parameters to Customize Total Knee Arthroplasty Implants, file c474e74d-a159-48bd-b077-d51c2efc0cef
|
2
|
A TRIZ-based approach to manage innovation and intellectual property, file e40f7b84-09f3-afca-e053-6605fe0aeaf2
|
2
|
Markerless motion capture integrated with human modeling for virtual ergonomics, file e40f7b84-3c91-afca-e053-6605fe0aeaf2
|
2
|
Motion Capture and Virtual Humans to Enhance Ergonomic Design and Validation of refrigerated display units, file e40f7b84-3e51-afca-e053-6605fe0aeaf2
|
2
|
Digital Human Modelling to Analyse Virtual Amputee’s Interaction with the Prosthesis, file e40f7b84-4987-afca-e053-6605fe0aeaf2
|
2
|
A function oriented method for Competitive Technological Intelligence and Technology Forecasting, file e40f7b84-4a2e-afca-e053-6605fe0aeaf2
|
2
|
MOCAP and digital human model techniques to identify gait deviations in patients with lower limb prosthesis, file e40f7b84-4c47-afca-e053-6605fe0aeaf2
|
2
|
RGB cams vs RGB-D sensors: low cost motion capture technologies performances and limitations, file e40f7b84-4f72-afca-e053-6605fe0aeaf2
|
2
|
Comparison and classification of eco improvement methods, file e40f7b84-965a-afca-e053-6605fe0aeaf2
|
2
|
Automatic Identification of Below-Knee Residuum Anatomical Zones, file e40f7b84-d2f4-afca-e053-6605fe0aeaf2
|
2
|
The Role of Virtual Ergonomic Simulation to Develop Innovative Human Centered Products, file e40f7b84-d7e7-afca-e053-6605fe0aeaf2
|
2
|
PLM paradigm: how to lead BPR within the product development field, file e40f7b84-f879-afca-e053-6605fe0aeaf2
|
2
|
Low Cost Hand-Tracking Devices to Design Customized Medical Devices, file e40f7b84-fb4f-afca-e053-6605fe0aeaf2
|
2
|
Automatic Generation of Software Interfaces for Hand-Tracking Devices, file e40f7b84-ff15-afca-e053-6605fe0aeaf2
|
2
|
Mapping product life-cycle knowledge for eco-improvement, file e40f7b85-0644-afca-e053-6605fe0aeaf2
|
2
|
Mixed reality to design lower limb prosthesis, file e40f7b85-3598-afca-e053-6605fe0aeaf2
|
2
|
Simplynurbs: a software library to model nurbs for medical applications, file e40f7b85-3653-afca-e053-6605fe0aeaf2
|
2
|
Patients’ evaluation based on digital motion acquisition, file e40f7b85-42c6-afca-e053-6605fe0aeaf2
|
2
|
Optimized development: defining design rules through product optimization techniques, file e40f7b85-42cb-afca-e053-6605fe0aeaf2
|
2
|
Patients’ evaluation based on digital motion acquisition, file e40f7b85-469f-afca-e053-6605fe0aeaf2
|
2
|
Optimized development: defining design rules through product optimization techniques, file e40f7b85-48f5-afca-e053-6605fe0aeaf2
|
2
|
Visual representation of dynamic pressure map on the digital human model of patient with a lower limb prosthesis, file e40f7b85-5ce9-afca-e053-6605fe0aeaf2
|
2
|
How to Build Guidelines for Eco-Improvement, file e40f7b86-1a4e-afca-e053-6605fe0aeaf2
|
2
|
An Industrial Application of a TRIZ Based Eco-Design Approach, file e40f7b86-34ca-afca-e053-6605fe0aeaf2
|
2
|
Analysis of Patients With Spinal Cord Injury Using Motion Capture, file e40f7b87-0b3c-afca-e053-6605fe0aeaf2
|
2
|
Assessment of Spinal Cord Injured (SCI) Patients Based On Digital Motion Acquisition, file e40f7b87-be02-afca-e053-6605fe0aeaf2
|
2
|
Motion Capture and Data Elaboration to Analyse Wheelchair Set-Up and Users’ Performance, file e40f7b88-14cf-afca-e053-6605fe0aeaf2
|
2
|
A Long-Term Strategy to Spread TRIZ in SMEs. Analysis of Bergamo’s Experience, file e40f7b88-4ff4-afca-e053-6605fe0aeaf2
|
2
|
Virtualization of the Human in the Digital Factory, file e40f7b88-d0ae-afca-e053-6605fe0aeaf2
|
2
|
A new approach for medical assessment of patient’s injured shoulder, file e40f7b89-0aa5-afca-e053-6605fe0aeaf2
|
2
|
Quantitative assessment of shoulder rehabilitation using digital motion acquisition and convolutional neural network, file e40f7b89-6d4e-afca-e053-6605fe0aeaf2
|
2
|
Pressure data and multi-material approach to design prosthesis, file e40f7b89-711f-afca-e053-6605fe0aeaf2
|
2
|
Design of Customized Virtual Reality Serious Games for the Cognitive Rehabilitation of Retrograde Amnesia After Brain Stroke, file e40f7b8a-b68c-afca-e053-6605fe0aeaf2
|
2
|
A method to develop virtual reality platforms for the medical rehabilitation of severe memory loss after brain stroke, file e40f7b8b-051e-afca-e053-6605fe0aeaf2
|
2
|
Warehouse and Logistics ergonomics optimization through real-time evaluation of the niosh index, file 5c8729bc-a4a6-4fd4-a766-88033f75cf0e
|
1
|
A Morphological Evaluation of Shoulder Parameters: A Medical Support Tool for the Diagnosis, file 65ec7925-f954-46ff-9a8f-0f479d1da1ca
|
1
|
Semi-immersive virtual environment to evaluate working conditions in logistic tasks using NIOSH method, file 9085ba64-bafa-496f-be7c-63a012802a99
|
1
|
Definition of a Method for the Evaluation of Telemedicine Platforms in the Italian Context, file ad2c3f62-3b74-4779-a58c-10a803a40b68
|
1
|
Motion acquisition of gait characteristics one week after total hip arthroplasty: a factor analysis, file b27ebc87-57f7-47df-afd1-51d4320bf562
|
1
|
Totale |
6.901 |