A deep experimental analysis of energy-proficient firewall policies and security practices for resource limited wireless networks

Abstract

[EN] The role of firewalls and security principles in resource-limited wireless networks and Wireless Sensor Networks (WSN) is more expected than in any dedicated network environment. The advanced wireless technologies and emerging fashion of autonomous wireless network nodes are mostly expecting resilient firewall services with multi-level security policies. Wireless networks are classified under sensor networks, Internet of Things (IoT) mobile networks, and so forth. According to the expectations, security frameworks are gradually invented around the communication platform using various ideologies. The novel ideology and respective implementation effort open better solutions against wireless network attacks. Anyhow, the minimal production of time complexity, energy complexity, and computation overhead from any novel security approach is always considered under the best practices. The complexity levels directly affect the wireless node's energy consumption ability and operational spans severely. The energy optimization techniques and load-balancing techniques integrated into multi-class firewall rules are extremely useful solutions for resource-limited wireless networks. This article has been motivated to analyze the recent firewall techniques and secure data communication mechanisms used for securing wireless networks. Consequently, the practice of comparative literature analysis helps to improve the current limitations identified under the classified categories of security mechanisms such as energy-optimized security principles and load-balanced security principles. The establishment of secure and energy-optimized multi-class firewall rules in each wireless node assures a healthy focus on next-generation networks. The experiment section shows the benefits of energy-optimized secure network communication in terms of better accuracy and the benefits of load-balanced secure network communication through minimal overhead in computing platforms.