Projects concerning electromagnetic fields at the workplace

IFA Project 5162: Augmented reality measurement system for magnetic fields (AURA)

The hazard potential of magnetic fields at the workplace is relatively difficult for workers to determine, since the fields are not visible. In case safety distances are not clearly marked, it might be difficult to adhere to safety arrangements, e.g. for persons fitted with cardiac pacemakers. Visualization of the fields can provide a better understanding of the exposure situation and thus improve workplace safety.

In practice however, creating sketches (for example) often proves time-consuming, and the two-dimensional representation is not always readily comprehensible. The aim of the AURA project (augmented reality measurement system for magnetic fields) is therefore to use augmented reality technology to display measurements of magnetic flux densities directly in a smartphone's video display. Images and videos of the workplace onto which the measured fields and the required safety distances are projected can be made available to the workers following measurement. This enables the workers to understand the exposure situation easily and assess where they can work safely. The system could also be used in training courses and seminars in order to present exposure situations illustratively and in context.

Video: AURA in an example in the field (non-accessible format)

The video shows a prototype implementation of the AURA concept. A smartphone is connected to a magnetic field strength meter, and the smartphone's video display shows recorded measured values in the correct three-dimensional position above a room humidifier. The measured values are displayed as colour-coded spheres; the colours (green to red) indicate whether values permitted by a selected body of regulations are exceeded. The smartphone's augmented reality technology enables the measured values in the video image to continue to be displayed in the correct three-dimensional position even when the position of the smartphone is changed.

IFA Project 5158: Evaluation of pulsed magnetic fields

Low-frequency magnetic fields emitted by certain equipment may cause irritation of the nervous system in workers. The provisions in the OSH Ordinance on electromagnetic fields (EMFV) of the German Federal Ministry of Labour and Social Affairs (BMAS) present a protection concept that prevents such irritation. The EMFV states the weighted peak method (WPM) or other state-of-the-art methods for the assessment of pulsed fields. The time-domain assessment method (TDA) has been used in Germany for many years for occupational health and safety purposes. The two methods, WPM and TDA are based on slightly different assumptions regarding the underlying physiology of nerve stimulation, and in some cases yield divergent assessment results. Therefore, it might prove difficult to reach an informed and reliable decision using these methods in certain scenarios. The issue is being addressed jointly by the Institute for Occupational Safety and Health of the German Social Accident Insurance (IFA) and the German Social Accident Insurance Institution for the woodworking and metalworking industries (BGHM).

Interference with cardiac implants caused by electromagnetic fields generated by electronic article surveillance systems

The possible interference with active implants (specifically cardiac pacemakers and implantable cardioverter-defibrillators, ICDs) caused by electronic article surveillance systems used in the retail trade (radio-frequency identification systems, RFIDs) was studied at the request of the German Social Accident Insurance Institution for the trade and distribution industry (BGHW). Several measurements were conducted on site in order to record the workers' exposure. RFID systems with operating frequencies in both the low-frequency and high-frequency ranges were studied. Besides evaluation of the exposure for all workers in accordance with DGUV Regulation 15, the fields arising were evaluated for possible interference for workers fitted with an active cardiac implant.

IFA Project 4211 concerning the assessment of possible interference with cardiac pacemakers and CRTs (devices for cardiac resynchronization therapy) caused by high-frequency electromagnetic fields

The project studied the exposure of persons fitted with cardiac pacemakers or defibrillators in the close field of a high-frequency electromagnetic field (f > 16.9 MHz). The electric voltages induced on the input to the implant were determined for a range of exposure scenarios by field simulation calculations with the use of a digital body model including implant. From this, a procedure was then developed for estimation of the voltage generated on the input to the implant based upon the power density measured in the near field of the antenna. The action limits for the mean power density were included in the analyses in accordance with the German Ordinance on protection of workers against hazards presented by electromagnetic fields (EMFV), Table A3.4.

IFA Project 4183: Electromagnetic fields on medium-frequency/inverter-based spot-welding machines (IFA Report 4/2013, in German)

In the project concerning electromagnetic fields on manually guided medium-frequency/inverter-based spot-welding machines, the distribution of the magnetic field and the effects of this field were analysed and visualized in a body model on welding tongs of varying electrode interval and geometry. The results were visualized for selected levels of the body (trunk, neck, head), compared with the values in the guidelines of the International Commission on Non-Ionizing Radiation Protection (ICNIRP) for low-frequency magnetic fields, and evaluated.

IFA Project 4182: Interference of active implants caused by electrical and magnetic fields on hand-held electric tools

Before persons who have been fitted with active implants can return to their workplaces, it must be determined whether the function of the implants could be disrupted by electric, magnetic or electromagnetic fields in the working environment. For many tasks, this is not considered an issue. It is however critical for work involving manually guided electric tools such as power drills, circular saws, jig saws and manual routers. Observance of a safety distance of up to 40 cm from the tools is therefore recommended in such cases. Experience has shown observance of such a great distance to be unrealistic in practice.

The project was to examine systematically the levels of the fields emitted by manually guided electric tools as a function of the power supply (mains, battery) and the potential influence of these levels upon implants in the human body. A mathematical model was to be used to calculate the disruptive voltages induced on the input of an implant. This model employs a body model in which the arrangement of the tissue structures corresponds to the human anatomy. The objective was to use the results to formulate practical measures for the protection of persons fitted with implants during work involving manually guided electric tools.

Electromagnetic fields at hand-held spot-welding guns (BGIA Report 2/2009)

In the project described here, exposure arising during tasks involving hand-held spot-welding guns with separate 50 Hz AC power supplies was assessed for the first time with reference not only to results of workplace measurements, but also to calculated current densities in the human body. Current densities were analysed, visualized and finally evaluated in a three-dimensional field simulation in multiple layers of the human body for frequently occurring work situations.

Contact

Ingo Bömmels

Accident Prevention: Digitalisation - Technologies

Tel: +4930 13001-3580
Fax: +4930 13001-38001


Carsten Alteköster

Accident Prevention: Digitalisation - Technologies

Tel: +49 30 13001-3581
Fax: +49 30 13001-38001


Dr Florian Soyka

Accident Prevention: Digitalisation - New Technologies

Tel: +49 30 13001-3583
Fax: Fax: +49 30 13001-38001