This dissertation presents a study on developing an ultrawideband (UWB) antenna for improving the efficiency of on-body communications in body area network (BAN). In scenarios involving the use of on-body communication devices, the human body can exert a strong influence on the characteristics of the antennas used in the devices. Particularly, when a planar antenna is worn parallel to the body surface, the body can alter the radiation pattern considerably. Typically, the resultant pattern is directional, and the main beam is oriented away from the body. Therefore, most of the electromagnetic (EM) energy is radiated away from the body, and the signal propagation between the on-body antennas is highly dependent on reflections from nearby scatterers. Consequently, the path loss of on-body channel is high, and the channel is sensitive to environmental influences. In this study, a 6–10-GHz UWB directional reduced-size wide slot antenna (RWSA) is proposed for applications involving on-body wireless communication systems. The proposed RWSA is based on a narrow-width design, and it can be mounted on the side of a wireless device. When a side-mounted RWSA is worn on a body, the antenna boresight is naturally directed along the body surface, and most of the EM energy can be efficiently transmitted by direct or diffracted waves. Consequently, the performance of the on-body communication channel can be effectively improved. A series of on-body channel measurements were performed in various environments. Compared with previous studies, the results show that using side-mounted RWSAs can markedly improve the path loss (>20 dB) and reduce the sensitivity of the channel to the human body and environments. This study also proposes an approach for estimating the performance of antennas in real environments. With the proposed approach, the superior performance of the proposed RWSA is verified again in both the frequency and time domains. Furthermore, the antenna diversity of using multiple RWSAs is investigated.