In spite of recent advancements in millimeter-wave (mmWave) communication technologies, the limited beamforming coverage due to the high propagation loss remains a critical impediment to Internet of Things (IoT) hand-held applications. This article introduces the concept of dynamic beam shaping consisting of resource-efficient beamforming algorithm associated with switchable antenna system configurations. The ability to control and modify the beam direction, polarization, and beam width is confirmed to be highly instrumental in ensuring an uncorrupted, spherical wireless coverage of 60 GHz Wi-Fi featuring multigigabit data rates. Empirical studies ascertain that the presented beamforming algorithm and cross-layer hardware design can globally search optimal beams with more than 90 % hit ratio. To the author's best knowledge this work is the first to successfully demonstrate the applicability of 60 GHz-based mmWave Wi-Fi for various IoT user scenarios such as 4 K ultra high definition and 720p high definition streaming investigated under real-life scenarios.