Model S fatal accident continued: Tesla insists on not turning off the self-driving function and developing driverless chips

The Model S fatal accident that occurred on May 7 has not yet been settled, and the debate over self-driving technology continues. The report issued by the US Highway Safety Investigator on the 26th indicated that the first Tesla car accident that occurred in the self-driving mode in May occurred when the accident occurred. This decision is different from that of the police, but the report did not Point out that speeding is the main cause of the accident.

ADAS, Tesla, Mobileye

Tesla Motors has not commented on this. Executive Director Elon Musk said that he will not turn off the self-driving function, but the National Highway Traffic Safety Administration has launched an investigation into Tesla's self-driving system to see if it threatens to drive. Safety.

The owner of the car was killed in a car accident when using the Tesla autonomous driving function. According to Tesla's official statement, this is the first known car accident that has caused death since Tesla's self-driving drive exceeded 130 million miles (208 million kilometers).

Tesla electric vehicles have experienced accidents in their own automatic driving, and their safety and stability have been questioned by unprecedented precedence. According to the latest news from foreign media, Tesla has taken action to abandon Mobileye, the provider of visual identity chips for its current self-driving system. Tesla chose to terminate its cooperation with Mobileye and decided to develop similar systems and ADAS chips. This news comes from Recode, and the current development is that Tesla is likely to start developing its own computer vision chip system internally.

Tesla's previous purchase of visual chips was the ADAS oligarchy Mobileye, which has been a supplier of Tesla's autopilot software technology and sensors. The EyeQ system chip of the ADAS oligarch Mobileye has been used to perform traffic signal recognition and road migration. Early warning and other tasks. After the EyeQ3 chip, the cooperation between Mobileye and Tesla will come to an end. In the second quarter earnings report, the above-mentioned supplier executives announced the news. After the announcement, the company's share price plummeted by 7%.

In the quarterly earnings conference call, Mobileye's chief technology officer Ammon Sashua said that regardless of whether to continue to cooperate with Tesla, the company will continue to optimize and upgrade its anti-collision system, and Mobileye will continue to work with automakers in the future. Cooperation, not just providing an OEM solution.

ADAS, Tesla, Mobileye

At the opening ceremony of the Gigafactory factory, Tesla's head, Elon Musk, was asked about the termination of cooperation with Mobileye: "The parting with Mobileye is an inevitable result, from Tesla's point of view, and Not an accident."

Previously, DIY autonomous driving expert George Hotz said that Mobileye's system is very easy to copy, so Tesla should establish its own version, and Tesla has now begun to recruit experts in related fields, such as former AMD chip engineer Kim Keller. Responsible for the autopilot hardware team. During this time, Tesla will continue to retain restrictions on Autopilot functionality.

Indoor Access Point

An Indoor Access Point is a device for wireless local area networks (WLAN) that provides wireless network coverage and connectivity. It can connect to a wired network and transmit data via a wireless signal, allowing users to connect to the network wirelessly within coverage.

Indoor access points come in a variety of different types and specifications to suit different scenarios and needs. Here are some common types of indoor access points:

1. Single Band Access Point: A single band access point operates in the 2.4GHz band and typically provides a maximum transfer rate of 300Mbps. This type of access point is suitable for small office or home networks because the 2.4GHz band has better penetration and coverage, but a relatively low transfer rate.

2. Dual Band Access Point: The dual band access point supports both 2.4GHz and 5GHz bands, providing higher transmission rates and better performance. The 5GHz band has more interference free channels than the 2.4GHz band, which can provide faster speeds and more stable connections. Dual-frequency access points are suitable for medium sized offices, malls or hotels.

3. Lightweight Access Point: A lightweight access point is a wireless network device that needs to be used with a network controller. Lightweight access points do not have independent management functions themselves, but are centrally managed and configured via a network controller. This type of access point is suitable for large enterprises or organizations to enable centralized management and monitoring of the entire network.

4. Standalone Access Point: A standalone access point is a standalone device that has its own management and configuration functions and does not require additional network controllers. This type of access point is suitable for small businesses or individual users and can provide a simple and easy-to-use wireless networking solution.

5. Scalable Access Point: A scalable access point is a device that can scale on demand, increasing or decreasing the number of access points based on network demand. This type of access point is suitable for places that require flexible scaling, such as large office buildings, schools, or hospitals.

In addition to the types listed above, there are some special purpose indoor access points, such as:

1. Wall-mounted Access Point: A wall-mounted access point can be plugged directly into a Wall power outlet without the need for an additional power cord. This type of access point is suitable for home networks or small offices and can provide easy installation and use.

2. Integrated Antenna Access Point: The antenna of the antenna access point is integrated into the device, and no additional antenna installation is required. This type of access point is suitable for sites that require simple installation and a nice look.

3. Multiple Antenna Access Point: Multiple antenna access points can achieve better signal coverage and performance through multiple antennas. This type of access point is suitable for large venues or high-density user environments, such as conference rooms, stadiums or airports.

To sum up, there are many different types and specifications of indoor access points, which can be selected according to different scenarios and needs. Whether it's a small office, home network or a large enterprise, you can achieve convenient wireless network coverage and connectivity through indoor access points.

Indoor Access Point,Access Point Ceiling,Ceiling Wifi Access Point,Ceiling Mounted Wireless Access Point Poe

Shenzhen MovingComm Technology Co., Ltd. , https://www.szmovingcomm.com

Posted on