Articles for tag: Embedded SystemsIoTReal-TimescalabilitySecurityTestingValidation

June 1, 2025

Mathew

Testing and Validation of Large-Scale IoT Systems (2026 Challenges)

Testing and Validation of Large-Scale IoT Systems (2026 Challenges)

Testing and Validation of Large-Scale IoT Systems: Challenges in 2026 The Internet of Things (IoT) has rapidly evolved, connecting billions of devices across various sectors, from smart homes to industrial automation. As we approach 2026, the scale and complexity of these systems present significant challenges in testing and validation. Ensuring the reliability, security, and performance of large-scale IoT deployments is crucial for realizing their full potential. This article explores the key challenges and potential solutions for testing and validating IoT systems in the coming years. The Expanding Landscape of IoT By 2026, IoT systems will be characterized by: Increased Scale:

May 20, 2025

Mathew

Chaos Engineering: Building Resilient Systems by Breaking Them (2026)

Chaos Engineering: Building Resilient Systems by Breaking Them (2026)

Chaos Engineering: Building Resilient Systems by Breaking Them (2026) In today’s complex and distributed systems, resilience is paramount. Traditional testing methods often fall short in uncovering the hidden vulnerabilities that can lead to catastrophic failures. Chaos Engineering emerges as a proactive approach to building robust systems by intentionally injecting controlled failures to identify weaknesses and improve overall system resilience. What is Chaos Engineering? Chaos Engineering is the discipline of experimenting on a system in order to build confidence in the system’s capability to withstand turbulent conditions in production. It involves deliberately introducing failures, such as server crashes, network latency, or