https://robolabor.ee/homelab/ 2026-04-23T12:04:32+00:00 https://robolabor.ee/homelab/ https://robolabor.ee/homelab/lib/tpl/arctic/images/favicon.ico text/html 2026-04-22T09:25:38+00:00 Anonymous (anonymous@undisclosed.example.com) https://robolabor.ee/homelab/en/safeav/hw/conclusions?rev=1776839138&do=diff Summary This chapter explains how semiconductors and electronics became the foundation of modern autonomous systems across ground, airborne, marine, and space platforms. It shows a common historical pattern: systems began with mostly mechanical or isolated electronic functions, then evolved toward digitized control, networked subsystems, and increasingly autonomous operation. In cars, this meant moving from engine control to chassis, infotainment, electrification, and ADAS; in aircraft, ships, … text/html 2026-04-22T09:22:16+00:00 Anonymous (anonymous@undisclosed.example.com) https://robolabor.ee/homelab/en/safeav/hw/conventionalvalidationandverification?rev=1776838936&do=diff Conventional Validation and Verification As discussed in chapter 2, all of these systems live under a governance structure where validation and verification technology links the technical world to the governance structure. Critical in enabling these processes is the domain of Electronic Design Automation (EDA). EDA refers to the software tools and workflows used to design, verify, and prepare semiconductor devices and electronic systems for manufacturing. At the chip level, the flow typical… text/html 2026-04-22T09:33:13+00:00 Anonymous (anonymous@undisclosed.example.com) https://robolabor.ee/homelab/en/safeav/hw/esc?rev=1776839593&do=diff Electronics Supply Chain [ Masters (2nd level) classification icon ] In product development, the initial focus is on functionality and differentiated value. As discussed in the governance sections, the next stage is to make sure the product conforms within the appropriate regulatory frameworks connected to safety and shared usage. The final stage and perhaps the most important stage is that of consistently delivering and supporting the product in the marketplace. To consistently deliver the … text/html 2026-04-22T09:23:31+00:00 Anonymous (anonymous@undisclosed.example.com) https://robolabor.ee/homelab/en/safeav/hw/governance?rev=1776839011&do=diff Governance: EMI sharing and health [ Masters (2nd level) classification icon ] Figure 1 Another key aspect of governance is the management of shared resources. In the case of the mechanical world, this means laws and regulations in transportation in connection with traffic laws and the traffic infrastructure. In electronics, it means the management of the shared frequency spectrum and health safety issues. For shared use, in the US, the primary legal basis was the communication act passed … text/html 2026-04-22T09:10:19+00:00 Anonymous (anonymous@undisclosed.example.com) https://robolabor.ee/homelab/en/safeav/hw/governanceandsafety?rev=1776838219&do=diff Governance and Safety As semiconductor content in vehicles increased, automotive safety protocols evolved from informal engineering practices to highly structured, lifecycle-based governance frameworks that now extend down to silicon IP and AI behavior. In the 1980s and 1990s, when electronic systems such as ABS and airbag controllers first became widespread, safety assurance was largely handled through company-specific processes. OEMs and Tier-1 suppliers relied on internal FMEA methods, redun…