Smart Home IoT Research Topics

Smart Home IoT Research Topics are now being extensively utilized in many of the appliances. The IoT is an interconnected network which allows them to collect and alter the data through the internet. It has some communities that are linked to the central network and it will be remotely examined and organized through the devices. Then here we provide the details that are related to this proposed smart home community based IoT environment technology.

  1. Define Smart Home Community in Internet of Things Environment

In the starting stage of the research we first begin with the explanation for this proposed smart home IoT environment. A smart home community defines the housing area where the IoT technology is widely combined into the framework and devices over the homes to improve the overall quality of life, convenience, energy efficiency and security for its residents. In such communities, different systems and devices like lighting, entertainment systems, security cameras, thermostats and appliances are joined to a central network and will be remotely controlled and monitored over tablets, computers or smartphones.

  1. What is Smart Home Community in Internet of Things Environment?

There after the explanation we look for the detailed definition for this proposed smart home IoT environment. The IoT environment defines the linked network of physical devices, buildings, objects, vehicles and other items that are surrounded with software, connectivity and sensor technology which allows them to gather and interchange the data through the internet. In an IoT environment, these smart objects will interact with each other and with the integrated systems to collect and examine data, and respond to modifications in their environment.

  1. Where Smart Home Community in Internet of Things Environment used?

Next to the detailed definition we converse where to utilize this proposed technique. The smart home technology employs IoT to combine different systems, devices, and appliances over a linked network. The applications like security, voice assistants, home automation, environmental monitoring, health and wellness monitoring, appliance control and energy management. Energy management contains monitoring systems, smart thermostats and smart plugs to optimize usage and decrease utility bills. Remote control appliances like ovens, dishwashers, refrigerators and washing machines utilizing voice commands or smart phones are probable. Home automation consists of controlling heating, ventilation, lighting and air conditioning systems, whereas the security systems utilize motion sensors, smart cameras, alert systems and doorbell cameras. Voice controlled assistants such as Amazon Alexa, Google Assistant voice-based communication with applications. Health and wellness monitoring utilizes IoT devices namely sleep monitors, smart scales and fitness trackers.

  1. Why Smart Home Community in Internet of Things Environment technology proposed? , previous technology issues

Here we proposed the smart home based IoT technology by offering the actual-time monitoring, scalability, seamless integration, community collaboration, customizable security solutions, data-driven insights and remote access. The IoT- based systems allows homeowners to find the new technology and enhance the novel security technologies. Some of the problems with the previous technology executions in the smart homes are as follows: Reliability and stability, Security vulnerabilities, complexity and usability, privacy concerns and fragmentation and interoperability.

  1. Algorithms / protocols

Our proposed system utilizes the following methods to overcome the issues in the existing technologies and to obtain the best findings for this research. The methods that we utilized are Fuzzy Based Multi-Factor Authentication Method, Lightweight Logical Pattern Algorithm and Genetic Algorithm Combined Bacteria Foraging Algorithm.

  1. Comparative study / Analysis

Smart home community based IoT is proposed in this research and is compared with the various methods or techniques with the existing technologies and to obtain the best findings for this research.

  • In the starting stage the sensors will encrypt data by utilizing a Lightweight Differential Logical Pattern algorithm.
  • Then at the next phase it directly sends the data after that a Genetic Algorithm and a Bacteria Foraging Algorithm (GA-BFA) to generate the interaction among HGs.
  • The multi-Factor Authentication is used to estimate the identity of a mobile user, the authentication process uses multiple factors.
  1. Simulation results / Parameters

Now we compare some parameters or performance metrics for this research with the existing technology to obtain that our proposed technique gives the best result. The metrics that we compared are Execution Time, Energy Consumption, Packet Loss and Delay with the Number of sensor nodes and then the throughput with Number of IoT sensors.

  1. Dataset LINKS / Important URL

In this research the smart home community based IoT technology is proposed to address the issues in the existing technologies and to face it by using the following links to overview the concepts on the basis of this proposed strategy.

  1. Security assisted Smart Home Community utilized the Internet of Things Environment Applications

The application that has to be utilized for this proposed technique will be executed by a framework which controls the IoT environment for security purposes. This contains utilizing the connected devices like smart cameras, sensors and locks to monitor and control different factors of home security remotely through an application. Such a system will offer house owners enhanced convenience and the peace of mind by permitting them to control and organize their home’s security from anywhere with an internet connection.

  1. Topology for Smart Home Community in Internet of Things Environment

Topology that to be used for this proposed technique has the application with the smart devices like alarm systems, security cameras and motion sensors. The framework provides the central framework for the users to communicate with the smart home system that is available through mobile or web app. A central gateway links these devices over the relaying commands, data gathering and application platform. The cloud structure is employed for remote access, processing and data storage, allowing data accessibility, confidentiality and integrity.

  1. Environment for Smart Home Community in Internet of Things Environment

The environment for this proposed technique combines human interaction, digital systems and physical infrastructure for protection. It consists of centralized hubs, cloud infrastructure, network infrastructure, IoT devices and residential spaces. Human interaction will contain voice assistants, mobile apps or web portals. Service providers improve and maintain the IoT infrastructure, whereas the security personnel monitor security alerts and work together with the residents.

  1. Simulation tools

For this research Smart home based IoT technique, we secure the home by using the simulation tools. The software requirement that is required for this research is listed below. The developmental tool that is utilized to implement the research is NS – 3.26. The work is executed by using the operating system Ubuntu 14.04 LTS.

  1. Results

The Smart home community based IoT is proposed in this research and it overcomes numerous existing technology issues. The proposed method is here compared with different performance metrics or parameters to attain the best results. The developmental tool to be utilized for this research is NS-3.26.

Smart Home IoT Research Ideas:

The following are the research topics that are relevant to this research smart home IoT environment, these topics will provide us some understandable and effective ideas and it solve the queries that arises with us:

  1. Design and Implementation of an IoT-based Smart Home with the Ability to Communicate with the Smart Grid
  2. IoT-Based Smart Home Automation Using NodeMCU: A Smart Multi-Plug with Overload and Over Temperature Protection
  3. Smart Home Applications Based on Internet of Things: Current Scenario, Issues and Proposed Solutions
  4. IoT Based Smart Home Appliance Control for detecting the speed using Wifi 802.11a in Comparison with Wi-Max
  5. A Review on Impact of Internet of Things (IoT) on Individual Privacy in Smart Home Systems
  6. IoT Based Smart Home Automation Using Solar Photovoltaic System and Online Time Server
  7. Experimental Evaluation of Internet of Things Assisted Human Voice based Smart Home Controlling System
  8. Integration of Cloud-Based Speech Recognition System to the Internet of Things Based Smart Home Automation
  9. Enabling Smart Home Energy Management through Gesture-Based Control and IoT Technology
  10. IoT-Based Smart Home Device Monitor Using Private Blockchain Technology and Localization
  11. Research on Smart Home Appliance Control System under IoT Artificial Intelligence Technology in 5G Era
  12. Hybrid Approaches (ABAC and RBAC) Toward Secure Access Control in Smart Home IoT
  13. Smart Energy Metering, Control, and Protection System for Making a Smart Home Using IoT
  14. Performance Evaluation of High Data Rate Transmission and Optically Powered IoT Ecosystem over SI-POF for Smart Home Applications
  15. Revolutionizing Home Connectivity with IoT-Enabled Smart Mirrors for Internet Browsing and Smart Home Integration
  16. Smart Home Healthcare Technologies Based on IoT for Bedridden Patient: A Systematic Literature Review
  17. EZPlugIn: Plug-n-Play Framework for a Heterogeneous Iot Infrastructure for Smart Home
  18. A Supervised Approach for Providing Contextual Information to User Behavior in IoT Smart Home Environment
  19. Energy Efficient Speech Command Recognition for Private Smart Home IoT Applications
  20. Comparison of AI Concepts, Machine Learning Hybrid Approach and IoT in Monitoring Smart Home Appliances in IDS
  21. Smart Adapter System Architecture for Seamless and Scalable Integration of Industry and Smart Home IoT
  22. Internet-of-Things-Based Smart-Home Time-Priority-Cost (TPC)-Aware Energy Management System for Energy Cost Reduction
  23. Cognitive IoT enabled by Layered Architecture and Neural Networks in a Smart Home Environment
  24. Robust and Lightweight Remote User Authentication Mechanism for Next-Generation IoT-Based Smart Home
  25. IoT-Enabled Smart Home Energy Management Strategy for DR Actions in Smart Grid Paradigm
  26. Cyber-Security of Embedded IoTs in Smart Homes: Challenges, Requirements, Countermeasures, and Trends
  27. Hybrid Smart Home based on AI and IoT with Complex Interwoven Activities for Cognitive Health Assessment and Monitoring
  28. Situational Awareness for Smart Home IoT Security via Finite State Automata Based Attack Modeling
  29. A Multi-Protocol IoT Platform for Enhanced Interoperability and Standardization in Smart Home
  30. Privacy-Preserving Transactive Energy Management for IoT-Aided Smart Homes via Blockchain
  31. A Systematic Literature Review of Privacy, Security, and Challenges on Applying IoT to Create Smart Home
  32. A Traffic Prioritization Framework For Smart Home IoT Networks using Programmable Data Planes
  33. Lightweight Three-Factor-Based Privacy- Preserving Authentication Scheme for IoT-Enabled Smart Homes
  34. IoT Based Smart Home Automation and Security System Using Mobile App With Assistant Robot for Developing Countries
  35. Hyperledger Fabric Framework with 5G Network for Blockchain-based Security of IoT Smart Home Applications
  36. A Secure and Anonymous User Authentication Scheme for IoT-Enabled Smart Home Environments Using PUF
  37. Design and Development of IoT Oriented Solar Powered Smart Home Controlling Mechanism
  38. A Game-Theoretic Approach to the Early Detection of Internet of Things-Based Threats in Smart Home Automation
  39. Worst Attack Vulnerability and Fortification for IoT Security Management: An approach and An Illustration for Smart Home IoT
  40. Person Detection with Deep Learning and IoT for Smart Home Security on Amazon Cloud
  41. Blockchain & IoT Based Smart Home Health Monitoring System with a Natural User Interface
  42. Research on Interaction Design of Smart Home Products Based on the Internet of Things Technology
  43. Risk Management of Smart Homes for Disabled People Based on Neural Networks and IoTs
  44. Securing IoT devices using Ensemble Machine Learning in Smart Home Management System
  45. A Deep LSTM based Approach for Intrusion Detection IoT Devices Network in Smart Home
  46. Protecting Smart-Home IoT Devices From MQTT Attacks: An Empirical Study of ML-Based IDS
  47. Enabling Efficient Cloud-Based Data Collection System for Smart Home IoT Data Using Data Binning and Lossless Compression
  48. A Compact In-Band Full Duplexing Antenna With Quasi-Isotropic Radiation Pattern for IoT-Based Smart Home and Intravehicle Wireless Communication Applications
  49. Preserving Contextual Privacy for Smart Home IoT Devices With Dynamic Traffic Shaping
  50. From Frustration to Function: A Study on Usability Challenges in Smart Home IoT Devices