The safety problem on the eve of fully self-driving vehicles becomes a worry

According to recent reports from international media, a senior engineer from the Hyundai Group has stated that fully autonomous vehicles will be available by 2030, with no need for human input or driver intervention. This marks a significant milestone in the evolution of transportation technology. Jaeyong Um, head of the modern R&D team, emphasized that while the company is confident in the growing maturity of autonomous driving technology, public concerns about safety remain a major challenge. He stressed the urgent need for innovative solutions to address these worries and build trust among consumers. During a statement outside its R&D center in Seoul, Um called on the government, academic institutions, researchers, and industry experts to collaborate more closely in advancing autonomous driving capabilities. Major automotive and tech companies are already investing heavily in this field, with Hyundai Motor and Kia recently obtaining testing licenses for autonomous vehicles in Nevada. By 2030, it's expected that autopilot systems will be highly advanced. Drivers will no longer need to keep their hands on the wheel or continuously monitor the road. In fact, they might even be able to "switch off" mentally, relying entirely on the vehicle’s intelligence. However, the engineer also pointed out ongoing challenges, such as cybersecurity threats, vehicle hacking, and the risk of remote control breaches. These issues continue to hinder the widespread adoption of self-driving cars. To overcome them, further advancements in artificial intelligence are essential to ensure the reliability and safety of autonomous systems. Looking ahead, the ultimate vision for future vehicles is "ultra-high-speed interconnected smart vehicles." Um noted that traditional car manufacturers are taking a gradual approach to developing autonomy, while IT companies are pursuing disruptive technologies, leading to two distinct but complementary paths in R&D.

Fiber Optic Adapter

Fiber optic adapter are used in fiber optic connection, the typical use is to provide a cable to cable fiber connection. People sometimes also name them to be mating sleeves and hybrid adaptors, mating sleeves means this fiber optic adapter is used to connect the same type fiber optic connectors, while hybrid adaptors are the fiber optic adaptor types used to connect different kinds of fiber optic connectors. YLTelecom`s fiber adapter provide reliable solution for fiber connections, single mode fiber optic adaptors and multimode fiber optic adaptors available on request. We adopt high quality raw materials and make these fiber optic adapters strictly according to international standard, this makes our fiber optic adaptors with high performance.
Fiber Optic Adapters FC, SC, ST, LC, MT-RJ, MU, E2000, FC/APC, SC/APC, LC/APC, E2000/APC, Simplex, Duplex, Quad, mating sleeves, hybrid fiber optic adapters, Single mode fiber optic adapters, multimode fiber optic adapters are all available.

Fiber optic adapters (also called couplers) are designed to connect two fiber optic cables together. They come in versions to connect single fibers together (simplex), two fibers together (duplex), or sometimes four fibers together (quad).
Adapters are designed for multimode or singlemode cables. The singlemode adapters offer more precise alignment of the tips of the connectors (ferrules). It is ok to use singlemode adapters to connect multimode cables, but you should not use multimode adapters to connect singlemode cables. This can cause misalignment of the small singlemode fibers and loss of signal strength (attenuation).

When connecting two multimode fibers, you should always make sure they are the same core diameter (50/125 or 62.5/125). A mismatch here will cause attenuation in one direction (where the larger fiber is transmitting light into the smaller fiber).

Fiber optic adapters are typically connecting cables with similiar connectors (SC to SC, LC to LC, etc.). Some adapters, called "hybrid", accept different types of connectors (ST to SC, LC to SC, etc.). When the connectors have differing ferrule sizes (1.25mm to 2.5mm), as found in LC to SC adapters, the adapters are significantly more expensive because of a more complicated design/manufacturing process.

Fiber Optic Adapter, Fiber Optic Cable Adapter, SC Fiber Optic Adapter, ST Fiber Optic Adapter, FC Fiber Optic Adapter

NINGBO YULIANG TELECOM MUNICATIONS EQUIPMENT CO.,LTD. , https://www.yltelecom.com