In the rapidly evolving landscape of robotics, RoboSafety is playing a pivotal role as a company committed to shaping a future that marries innovation with environmental consciousness and safety. As the integration of robots into various industries and everyday life accelerates, the imperative of ensuring their safe usage becomes increasingly evident. Let’s delve deeper into how our company, through its system safety services, is actively shaping the future of robotics:

As the automotive industry stands on the cusp of a technological revolution, with
vehicles becoming increasingly connected and reliant on complex software systems, a
consequential challenge has emerged—software-related recalls. The surge in
connected cars, equipped with ever-sophisticated software, has given rise to a
significant increase in software-related recalls, particularly in the United States. In 2019,
global connected car shipments exceeded a staggering 51 million units, marking a
remarkable 45% increase from the previous year.

The journey towards fully autonomous vehicles is fraught with complexities and
unforeseen challenges, as highlighted by recent events in the industry. Incidents like the
one involving a Cruise autonomous vehicle in San Francisco serve as poignant
reminders of the intricate and unpredictable nature of real-world environments where
these technologies operate. It’s evidently crucial to approach these incidents as
valuable lessons that can drive progress and innovation in the sector.

In the dynamic realm of commercial space transportation, where cutting-edge technologies and innovative concepts take flight, one thing must remain steadfast: safety. Recent developments within the U.S. Federal Aviation Administration (FAA) have underscored the importance of prioritizing safety above all else in the aerospace industry. At RoboSafety, we wholeheartedly endorse the “safety by design” philosophy, often encapsulated in the principle of “Safety First”, and in this blog, we will explore how it is the cornerstone of system safety engineering.

Fault Tree Analysis (FTA) is a powerful analytical tool used to explore and understand various events and their interconnections within a system that can lead to an undesired event (UE). This structured approach allows for a thorough investigation of the system to anticipate and prevent potential failures, errors, and other unexpected occurrences. Let’s delve deeper into the various facets of FTA and examine its primary purpose, functionalities, and significance in system evaluation and decision making.

Safety is paramount in any industry, especially when it comes to systems that have the potential to impact human lives. Over the years, various techniques have been developed to ensure the safety and reliability of these systems. One technique that has stood the test of time is the Fault Tree Analysis (FTA). In this blog post, we’ll take a journey through the decades, tracing the evolution of FTA from its inception to its modern-day applications.