 Brake Machine Interfaces, BMI, have the potential to modulate dysfunctional neurological networks through the use of chronically implanted microelectrodes. To ensure that these systems do not exceed the limits set by the International Commission on Non-Ionizing Radiation Protection, IGNERP, and the Institute of Electrical and Electronics Engineers, IEEE, we developed a simulation methodology to generate pre-compliance safety data. This methodology involves a multi-layered human head model containing a system of wireless, modular BMI's powered and controlled by an externally worn telemetry unit. The results showed that the volume average specific absorption rate, SAR, per 10 grams of tissue exposed to the telemetry field complied with IGNERP and IEEE reference levels, and that the maximum temperature increase in tissues was within permissible limits. Furthermore, these results were unaffected by the number of implants in the system model, indicating that the electromagnetic emissions from this type of BMI system are safe. This article was authored by Julian Slosky, Timothy Felipa, Anand Mohan, and others. We are article.tv, links in the description below.