The Internet of Things (IoT) is a natural evolution of the Internet and is becoming more ubiquitous in our everyday home, business, health, education, and many other aspects. The data gathered and processed by IoT networks might be sensitive whichcallsforfeasibleandadequatesecuritymeasures.This paper describes the use of the Wi-Fi technology in the IoT connectivity, then proposes a new approach, the Proactive Wire- less Protected Access (PWPA), to protect the access networks. Then a new end to end (e2e) IoT security model is suggested to include the PWPA scheme. To evaluate the solution?s security and performance, firstly, the cybersecurity triad: confidentiality, integrity, and availability aspects were discussed, secondly, the solution?s performance was compared to a counterpart e2e security solution, the Secure Socket Layer security. A small IoT network was set up to simulate a real environment that uses HTTP protocol. Packets were then collected and analyzed. Data analysis showed a bandwidth efficiency increase by 2% (Internet links) and 12% (access network), and by 344% (Internet links) and 373% (access network) when using persistent and non- persistent HTTP respectively. On the other hand, the analysis showed a reduction in the average request-response delay of 25% and 53% when using persistent and non-persistent HTTP respectively. This scheme is possibly a simple and feasible solution that improves the IoT network security performance by reducing the redundancy in the TCP/IP layers security implementation
