Human Solutions is investing heavily in high-tech and the product ergonomics of tomorrow. We conduct research in national and international projects, simplifying ergonomics, simulating human beings, creating the end-to-end digitalization of ergonomics and mastering the ergonomic challenges of autonomous driving.
Digital product development in the automotive industry includes the implementation of ergonomic requirements. Digital manikins are used for the design and evaluation of the vehicle interior. During the development of many vehicle types, the ergonomic focus is also on the design of the entire cabin (e.g. vehicle ingress, operating procedures). Since the occupants interact dynamically with the vehicle, corresponding motion studies must be carried out to ensure that the ergonomics will provide safety and comfort. To date, these studies have been carried out on time-consuming and cost-intensive physical models of the cabin with test persons – so a digital solution is needed.
To acquire ergonomic information at an early stage, we require a technology that can predict movements and evaluate occupants on/in the vehicle model. The DELFIN project implements the technology for the simulation of vehicle occupant movements into the RAMSIS digital manikin. The movements of the occupants in a vehicle environment will be calculated automatically with the help of a library of measured movements. Users will then be able to interactively manipulate and assemble them.
The technology for movement prognosis and evaluation should become generally usable in vehicle development (e.g. cars, trucks, airplanes & agricultural and construction machinery) and validated in various truck & car applications during the life of the project.
The joint project DELFIN is funded by the Federal Ministry of Education and Research within the framework of the ‘KMU-innovativ’ program. Launched on May 1, 2019, the program will run until April 30, 2022.
The MOSIM project is mainly aimed at enabling a holistic analysis of human movements by creating a modular simulation framework. In particular, interoperable concepts and approaches are to be developed that clearly reflect the realism of software for simulating human motion. At the same time, the effort involved in manual preparation and post-processing should be drastically reduced or automated by artificial intelligence and decision-making methods.
An approach like this increases the market potential of human simulation in several areas, and this is why MOSIM is tackling seven heterogeneous use cases to demonstrate the potential of the generic framework. The German consortium is planning to develop two independent demonstrators which will underscore the diverse usage possibilities of the generic approach.
The joint project MOSIM is funded by the Federal Ministry of Education and Research.
The vLead project targets the research, participatory development, practical testing and dissemination of concepts and instruments for the resource-oriented and effective management of digital project and team work. For SMEs in particular, these concepts and instruments are intended to promote innovation and performance, to improve the health of managers and employees and to support managers with the management and integration of employees. Human Solutions is working on the sub-project “Development of the vLEAD Innovation Process Tool to Support the Digital Management of Cross-Team Innovation Processes.”
The vLead research project is funded by the German Federal Ministry of Education and Research (BMBF) within the context of the “Innovations for the Production, Services and Work of Tomorrow” program and the European Social Fund (ESF).
The objective of this research project is the development of a software to simulate age-related ability changes and individual ability limitations. The software will be used in the virtual planning of manual work processes and for product design based on digital human models. The common goal of the project participants is to build software solutions that go far beyond the capabilities of existing tools. Virtual Aging is a collaborative effort of the Human Solutions GmbH, the imk automotive GmbH and the Chemnitz Technical University Institute for Industrial Engineering and Innovation Management. The project is by the German Federal Ministry of Education and Research, within the context of the “KMU-innovativ” (SME innovative).
UDASIM addresses the relevant individual factors of force, sitting pressure and posture. To simulate these individual factors, the commercial manikins CASIMIR, RAMSIS and ANYBODY are combined by means of a uniform data interface. The model for the comprehensive, multidimensional sense of discomfort is realized by means of an artificial neural network, which receives the calculated individual factors of the combined human models as input variables.
ARVIDA will be used for a number of different application scenarios. Within this framework, we will set up a process for motion simulation and evaluation based on measured movements for ergonomic applications in the commercial vehicle sector – and we will also implement the relevant tools. This process will be run and assessed in several specific application scenarios.
The “European Boat Design Innovation Group - Wind Farm Support Vessel” (EBDIG–WFSV) project is funded by the European Union. It involves the transfer of knowledge from the automotive to the shipping industry – and for the first time we’re making our CAD manikin RAMSIS “shipshape”. The research objects are ships that transport people to work on offshore wind farms.
In the “SafeWatch” project, we intend to incorporate existing national and international visual standards into the development of vehicles in such a way that they can be tested digitally during the prototypical implementation of 3D vehicle models.
In the project “Belt4All”, we are developing new methods and procedures for the manufacturer-independent digital design of seat belt systems in the automotive industry. The basic idea is to simulate seat belt routings in a 3D environment, enabling them to be better evaluated. Belt anchorage models, test body models and vehicle ambient geometry are all taken into account.
Human Solutions is a practical partner in the ALLWISS project, which investigates the Work-Learn-Life-Balance as a contribution to the balance between flexibility requirements and stability needs in knowledge work. The lifelong learning and innovation research results are tested by us for practical suitability. ALLWISS is funded by the Federal Ministry of Education and Research (BMBF) and by the European Social Fund (ESF) within the framework of the funding priority program, “Striking a Balance Between Flexibility and Stability in a Changing Working World.” www.allwiss.de