Periodic Reporting for period 1 - CellTrainer (Low Cost Real-time Multi-Physics Virtual Reality Training System For In-vitro Fertilisation Microinjection Tasks)
Période du rapport: 2018-06-01 au 2019-11-30
The aim of the CellTrainer project was to demonstrate a VR-based simulation system that could improve the training of micro-manipulation manual handling skills relevant to the IVF sector. Through workshops with end users and project domain experts, we identified a set of technical design requirements. This included: a) mechanical design of desktop based training system suitable for education environments b) visual resolution, simulation feedback and display performance based upon user expectations c) design of a user interface to support simulation based learning objectives d) validation of the underlying simulation engine driving the demonstrator system to support learning improvements. In the first instance, this project enabled us to test the feasibility of existing ERC-AdG results and highlight additional work needed to support product development. Subsequent market research studies and analysis also helped us determine a route to commercialisation.
Through this ERC-PoC we achieved the following objectives:
1) Testing the technical feasibility of a VR based simulation system for the training of micro-manipulation manual handling skills
2) Workflow and SWOT analysis of current approaches and subsequent training aids within IVF clinics
3) Implementation of the CellTrainer system for demonstrator to gain end user feedback and validate technical assumptions
4) Market assessments, commercial planning, including patent searches and economic cost analysis
5) Identification of additional work needed to achieve a route to market and reduce risks
By working with the UCL Centre of Reproductive Genetic Health (CRGH), UCL Transgenic Services (TS), and UCL Business we identified a set of technical adaptions needed to improve the commercial feasibility of the CellTrainer system. Further, we demonstrated key benefits of the CellTrainer system in improving the manual handling training for embryologists using simulation tools. Through end user testing, this led to a series of technical recommendations to then implement a second prototype and lower the associated costs appropriate for the education market. Future work includes successful implementation of identified recommendations related to the e-learning environment and biomechanical model, in addition to patent protection of the updated system.
Through this ERC-PoC we achieved the following objectives:
1) Testing the technical feasibility of a VR based simulation system for the training of micro-manipulation manual handling skills
2) Workflow and SWOT analysis of current approaches and subsequent training aids within IVF clinics
3) Implementation of the CellTrainer system for demonstrator to gain end user feedback and validate technical assumptions
4) Market assessments, commercial planning, including patent searches and economic cost analysis
5) Identification of additional work needed to achieve a route to market and reduce risks
By working with the UCL Centre of Reproductive Genetic Health (CRGH), UCL Transgenic Services (TS), and UCL Business we identified a set of technical adaptions needed to improve the commercial feasibility of the CellTrainer system. Further, we demonstrated key benefits of the CellTrainer system in improving the manual handling training for embryologists using simulation tools. Through end user testing, this led to a series of technical recommendations to then implement a second prototype and lower the associated costs appropriate for the education market. Future work includes successful implementation of identified recommendations related to the e-learning environment and biomechanical model, in addition to patent protection of the updated system.