Abstract
Visible Light Communication (VLC) has been noted as an emerging technology for communications in wireless local area networks. VLC provides some distinctive features over the conventional wireless access technologies, such as Wi-Fi, Bluetooth, or ZigBee. The most prominent feature of VLC is that it can provide more exact location information, since it is based on a particular light. In addition, VLC can reduce the frequency interferences from numerous wireless channels, since it uses a completely different radio frequency channel from the conventional wireless access technologies. Thus, VLC can be used for Internet-of-Things (IoT) services. Nevertheless, up to now, not enough studies on how to provide IoT services over VLC networks have been conducted. In this paper, we propose a framework to provide IoT services in VLC networks. In particular, we will consider the unidirectional VLC network, in which the downlink channel from the VLC transmitter to the VLC receiver is given by using VLC communication, whereas the uplink channel from the VLC receiver to the VLC transmitter is implemented by using another wireless access technology, such as Wi-Fi. This is because most of the VLC receivers, such as mobile phones, cannot support the uplink VLC communication. Based on the framework of IoT services over unidirectional VLC, in this paper, we also propose the VLC–IoT protocol (VIP) which is an application layer protocol for data transport with the session management functionality that can be used to effectively provide IoT services among IoT servers, VLC transmitters and VLC receivers in the networks. The proposed VIP protocol is implemented by using the Cooja simulator. For performance analysis, the proposed scheme is compared with the existing CoAP-based scheme that does not provide the session management. From a variety of simulation experiments, we see that the proposed scheme can provide lower data transmission and handover delays, compared to the existing scheme.
Highlights
To provide Internet-of-Things (IoT) services, a variety of wireless access technologies have been developed, such as Wi-Fi [1], Bluetooth [2], Near Field Communication (NFC) [3], and Zigbee [4].these technologies have suffered from radio frequency (RF) interferences, since most of those technologies use the same RF band, such as 2.4 GHz or 5 GHz
3, we describe the framework of IoT services over the unidirectional Visible Lights Communication (VLC) network and the Protocol (VIP) Protocol with session handoverand operations
Based on the framework discussed in the previous section, we propose the VLC-IoT Protocol (VIP) so as to provide effective VLC services over the unidirectional VLC networks
Summary
To provide Internet-of-Things (IoT) services, a variety of wireless access technologies have been developed, such as Wi-Fi [1], Bluetooth [2], Near Field Communication (NFC) [3], and Zigbee [4]. VLC communication is based on lights (e.g., LED lights), and the corresponding RF band is completely different from the conventional wireless access technologies. Based on the discussion above, in this paper, propose a framework of IoT services in. Based on the discussion above, in this paper, wewe propose a framework of IoT services in uniuni-directional networks. IoTservices services among among IoT session management functionality thatthat cancan be be used to to effectively servers, transmitters and receivers in the networks. VLC transmitter) will be VLCthe receiver (client), but the backward channel the client to thetoIoT
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