For the first time, a body area network (BAN) is used to construct a personal, distributed exposimeter (PDE), which can measure the whole-body averaged specific absorption rate (SAR(wb)) in real life, together with the incident power density (S-inc). The BAN consists of four textile antennas with integrated radio frequency receiver nodes tuned to the Global System for Mobile Communications (GSM) 900 downlink band. Calibration measurements at 942.5 MHz, using a human subject, are performed in an anechoic chamber. These are combined with numerical simulations to estimate both SAR(wb) and S-inc from the averaged received power on the PDE. The PDE has 50% prediction intervals of 3 dB on S-inc and 3.3 dB on the SAR(wb), caused by the presence of the human body, whereas the best single textile antenna in our measurements exhibits PI50's of 7.1 dB on S-inc and 5 dB on SAR(wb). Measurements using the PDE are carried out in Ghent, Belgium, during which a median S-inc = 47 mu W/m(2) and SAR(wb) = 0.25 mu W/kg are measured.