Integration of IoT for Sustainable Urban Development: Fid-Bau Portal

Integration of IoT for Sustainable Urban Development

Varaprasad, Goutham / Bahadure, Sarika

The number of people living in the cities is expected to rise by 2050, posing challenges such as overburdened transportation networks, endemic congestion, air and water pollution, intensive energy consumption, resource depletion, hazardous waste disposal, social vulnerability, inequality, and deteriorating public health. Sustainable development is a transition process and a method for achieving brief sustainability goals, such as a well-balanced welfare structure. In the twenty-first century, there are many technological breakthroughs such as Artificial Intelligence (AI), Augmented Reality (AR), Internet of Things (IoT), Virtual Reality (VR), and Robotics. IoT is a wide phrase that refers to anything that is linked to the Internet. Sensors, Radio Frequency Identification (RFID) chips, nanotechnologies, identification systems, IoT, and other relevant technological breakthroughs such as AI, Robotics can be used to describe it. By analyzing and resolving problems and giving solutions to obstacles in a range of areas, IoT technology has the potential to increase society's ability to develop smarter, more efficient cities. This paper aims to study and assess the integration of IoT toward sustainable growth in urban development. The literature study is conducted through the research paper reviews and a few case studies where IoT was used for physical planning. From the literature study, different tools and indicators are identified. The framework for the sustainability index is developed by using six urban sectors—(1) Transportation, (2) Infrastructure, (3) Environment, (4) Economy, (5) Social, and (6) Governance. The smart tools are categorized according to the application of each tool with the specific sustainability theme. From the relevant literature study, sub-indicators are framed for each theme. These sectors have been assigned benchmarking and weights using a comparison matrix. The interrelation of parameters is calculated, and the influence matrix is derived. The index of the required domain can be calculated using the sustainability index formula for the required interventions. This study would help in considering the systems of achieving sustainable development with the use of technology.