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㈠ What are the new technologies in life sciences in recent years?

In recent years, emerging technologies such as 3D printing, cell therapy and blockchain have brought great benefits to the development of human beings. The benefits are obvious, and the biggest impact on the health care field is the development of digital technology. Big data and information technology will help better manage population health data. In the "Thirteenth Five-Year Plan for National Science and Technology Innovation", the Chinese government has detailed plans for the development of precision medicine technology, the establishment of a multi-level knowledge database, and the creation of a national biomedical big data collection and storage platform.
1. 3D printing
3D printing can provide more opportunities for personalized treatment. The field of biologics is exploring new methods of 3D printing to manufacture cell and tissue products.
For example, drugs and disease models can be tested on 3D printed tissues instead of animals or humans as was previously the case. When 3D printing is combined with nanotechnology, it can also be applied at the molecular level: customized white blood cells can be engineered to hunt down and attack cancer cells.
Although the potential of emerging technologies such as 3D printing is widely recognized, current regulations for these technologies are still in their infancy, even in more developed markets such as Australia.
2. Blockchain
Blockchain is constructed from transaction blocks that are stored and linked to digital transactions. Transaction records can be shared and cannot be modified. It allows each patient's data source to act as The complete, unchangeable "chunk" is then securely shared with healthcare providers or other research organizations.
The application of blockchain in the medical field has attracted increasing attention at home and abroad. The tentacles of blockchain have spread across all walks of life, boosting the transformation and upgrading of traditional industries.
Currently, blockchain technology has been gradually applied in the medical field. As an emerging technology, it is subverting the business model and even the value chain of this industry. A series of data shows that the real potential of blockchain technology may lie in promoting cooperation by allowing different companies and even industries to share digital assets with each other.
3. Artificial Intelligence (AI)
Artificial intelligence algorithms can analyze large data sets from clinical trials, health records, genetic profiles and preclinical studies. Patterns and trends in this data can validate clinical hypotheses faster than researchers can and quickly provide new insights.
One of the latest applications of AI technology is in the field of diagnosis. In 2017, Tencent launched an AI diagnostic medical imaging service called Artificial Intelligence Innovative Medical System (AIMIS).
Currently, this technology has proven to be more than 90% accurate in preliminary diagnosis of esophageal cancer, 95% accurate in pulmonary sarcoidosis, and 97% accurate in diabetic retinopathy. To date, AIMIS laboratories have been established in more than 10 hospitals, and agreements have been signed for further deployment.
Tencent’s artificial intelligence research laboratory, Youtu Lab, also cooperates with Guangzhou Sun Yat-sen University Cancer CenterThe Esophageal Cancer Research Institute is working with the company to use thousands of anonymized patient data to train the diagnostic part of its AI technology. This development could have a significant impact on the drug development process.
For example, images captured by Tencent AI technology can be used in conjunction with xtalpi, an algorithm that uses cloud computing platforms such as Amazon Web Services, Tencent Cloud, Google Cloud, and Alibaba Cloud to deploy one million Technology at the heart of computing power to discover new products in computers, drastically reducing the time and huge investment required by pharmaceutical companies to develop new products.
4. Gene therapy
Gene therapy provides the possibility of personalized therapy, such as the new CAR-T therapy. Although the utilization rate is still low, human genetics and precision medicine have gradually passed through innovative Biotechnology is transforming health care.
5. Data supports the development of the life health and medical industry
Health data is the new healthcare currency. Facing the continuous and growing influx of data from internal and external sources, hospitals will rely on cognitive analysis to discover and sort out The most important nodes and trends in the data are analyzed systematically and structured to provide feasible insights to clinicians and patients.
There are three technologies that are helping the Asia-Pacific region mine different data sources, namely the Internet of Things, cognitive computing and cloud-based interactive EHR systems:
1. Internet of Things
The development of the Internet of Things is important for There is significant value in remote clinical monitoring, chronic disease management, preventive care, assisted living for seniors and health monitoring. The application of IoT can also help reduce costs, increase efficiency, and shift the focus to quality patient care.
2. Cognitive computing
Cognitive computing includes machine learning, neural networks and deep learning technologies, which can help medical organizations process large amounts of rapidly changing data.
Cognitive computing’s ability to process various statistical algorithms and quickly generate new models for new data will help transform large amounts of healthcare data—aggregated from sources such as medical devices, smartphones, activity trackers, and EHRs—into Personalized medical solutions.
More importantly, cognitive computing can also be used to predict health trends (such as disease onset), detect data patterns (such as the impact of drugs on individuals or groups), or enable data from different sources to be shared (such as creating 360-degree patient view).
3. Cloud-based interoperable EHR systems
When combined with AI, interoperable EHRs can help medical systems better integrate data into daily care and enable better patient management own data. While this data is stored in the cloud, it can be accessed on demand and on the blockchain, a distributed, immutable ledger of digital transaction records.
However, with the increase in data usage and ransomware attacks like Wannacry, cybersecurity and data risk management issues have become challenges that the life sciences and healthcare industries need to face.
In fact, healthcare is second only to the financial sector in terms of cyberattacks that occur each year. Across the world, governments are working on new regulations that would give patients control over their data and simplify the regulatory environment.
For example, Japan's Ministry of Health, Labor and Welfare (the main department responsible for health and social security) released the latest version of the "Health Information System Security Guidelines" in May 2017, aiming to promote a series of measures to deal with the network of medical institutions. Risk of attack.
Recently, Japanese medical institutions have commonly adopted closed systems to reduce cyber threats. However, the implementation of Japan's national health system's new medical ID and data sharing scheme will require medical institutions to upload data to external servers, thereby increasing the importance of cybersecurity.

㈡ The Internet of Vehicles is becoming more and more popular, who will take the blame if Tesla loses control | Big events of the week

NO.1 stalls out of control or the car owner makes a "misstep"

A technology-driven company, Shanghai PATEO Internet of Vehicles has demonstrated leading technical strength and complete business closed-loop reinvention capabilities in the field of smart transportation. Its chairman said that software-defined new infrastructure and digital infrastructure Inspur is moving the "data-driven" revolution from virtual to real. In the future, the value of automobiles will no longer be defined by traditional technology and performance indicators, but by software technology with artificial intelligence as the core.

It is understood that PATEO Internet of Vehicles has created many "uniques" in the industry. It is not only the only independent third party to own T-box and V2X platforms, the only one to deploy a mobile phone Internet of Vehicles platform, and the only one to have its own map. engines, etc., and it is also the first Internet of Vehicles company to enter the "five new" middle-end business.

After more than 10 years of investment and research and development, PATEO Internet of Vehicles has mastered the strong technical strength and complete business closed-loop implementation capabilities from underlying technology, to software architecture, to data center, to business ecosystem. It is a software A one-stop supplier of new infrastructure, it has become one of the global leaders in the Internet of Vehicles. [iDailycar]

Written by Song Yuting

This article comes from the author of Autohome Chejiahao and does not represent the views and positions of Autohome.

㈢ What new technologies have emerged in life sciences in recent years

NO.1

SARAH TEICHMANN: Expand single-cell biology (expanded single-cell biology)< br />
Head of cellular genetics, Wellcome Trust Sanger Institute, Hinxton, UK.

Over the past decade we have seen a huge increase in the number of single cells that researchers can analyze, With the development of cell capture technology, combined with methods such as barcode labeling cells and intelligent technology, the number will continue to increase in the future. You may not agree with this, but this allows us to study more complex problems with higher resolution.With samples, we can do various experiments. For example, researchers no longer only focus on a sample of one person, but can observe samples of 20 to 100 people at the same time. This means that we can better grasp the diversity of people, and we can analyze more development time points. organizations and individuals, thus improving the statistical significance of the analysis.

Our laboratory recently participated in a study that analyzed 250,000 cells from 6 species. The results showed that genes that control the innate immune response evolve quickly and vary across species. Higher cell-to-cell variability, both characteristics help the immune system to mount an effective fine-tuned response.

We will also see the development of the ability to observe different genomic patterns simultaneously in a single cell. For example, instead of being limited to RNA, we can see whether the protein-DNA complex of chromatin is open or closed. This has important implications for understanding epigenetic states during cell differentiation and epigenetic memory in the immune and nervous systems.

Methods to correlate single-cell genomics with phenotype will evolve, for example, correlating protein expression or morphology with the transcriptome of a given cell. I think we're going to see more of this type of stuff in 2019, whether it's through pure sequencing or through a combination of imaging and sequencing. In fact, we are already witnessing a convergence of these two technologies: sequencing is becoming increasingly high-resolution and imaging is becoming more diverse.

NO.2

JIN-SOO KIM: Improve gene editors

Director of the Center for Genome Engineering, Institute for Basic Science, and professor of chemistry, Seoul National University. (Director of the Genome Engineering Center and Professor of Chemistry, Institute of Genetics, Seoul National University.)

Nowadays, protein engineering drives the development of genome engineering. The first-generation CRISPR gene-editing system used the nuclease Cas9, an enzyme that cuts DNA at specific sites. To date, this approach is still widely used, but many engineered CRISPR systems are replacing native nucleases with new variants, such as xCas9 and SpCas9-NG, which broaden the targeting space—the parts of the genome that can be edited. area. There are enzymes that are more specific than first-generation enzymes, minimizing or avoiding off-target effects.

Last year, researchers reported new barriers to the introduction of CRISPR genome editing into the clinic. These include activating the p53 gene (which is related torelated to cancer risk); unpredictable “on-target” effects; and immunogenicity to CRISPR systems. These limitations must be addressed if genome editing is to be used for clinical applications. Some of these problems are caused by DNA double-strand breaks, but not all genome-editing enzymes create double-strand breaks - "base editing" converts a single DNA base directly into another base. Therefore, base editing is cleaner than traditional genome editing. Last year, Swiss researchers used base editing to correct a mutated gene in mice that causes phenylketonuria, an inborn error of metabolism in which toxins accumulate in the body.

It is important to note that base editors are limited in the sequences they can edit, known as protospacer adjacent motifs. However, protein engineering can be used to redesign and improve existing base editors or even create new ones, such as recombinases fused to inactive Cas9. Like base editing, recombinase does not induce double-strand breaks but can insert the desired sequence at a user-defined location. Additionally, RNA-guided recombinases will expand genome editing in new dimensions.

Routine clinical application of gene editing technology may still be several years away. But we will see a new generation of tools in the next year or two, and there will be a lot of researchers interested in this technology who will use it every day. New problems will inevitably arise, but so will innovative solutions.

NO.3

XIAOWEI ZHUANG (Zhuang Xiaowei): Boost micros resolution

Professor of chemistry and chemical biology, Harvard University, Cambridge, Massachusetts; and 2019 Breakthrough Prize winner.

The proof-of-principle of super-resolution microscopy occurred only a dozen years ago, but today the technology is relatively commonplace, biologists Access and knowledge enrichment.

A particularly exciting area of ​​research is determining the three-dimensional structure and organization of the genome. It is worth mentioning that the three-dimensional structure of the genome plays an increasingly important role in regulating gene expression.

Over the past year, we have reported on work in which we imaged chromatin with nanoscale precision and compared it with that of thousands of different cell types. sequence information. This spatial resolution is one to two orders of magnitude better than our previous work, allowing us to observe individual cells organizing chromatin into distinctdomains that differ greatly between them. We also provide evidence of how these domains are formed, which leads to a better understanding of the mechanisms of chromatin regulation.

In addition to chromatin, we foresee substantial improvements in spatial resolution in the field of super-resolution imaging. The resolution of most experiments is only a few tens of nanometers, which is small but insignificant compared to the molecules being imaged, especially when we want to resolve interactions between molecules. We are seeing improvements in fluorescent molecules and imaging methods that have greatly improved resolution, and we expect imaging at 1 nanometer resolution to become routine.

At the same time, the instantaneous resolution is getting better and better. Currently, researchers must compromise between spatial resolution and imaging speed. But with better lighting strategies and faster image acquisition, these limitations can be overcome. Thousands of genes and other types of molecules work together to shape a cell's behavior. Being able to observe the activities of these molecules simultaneously on a genome-wide scale will create powerful opportunities for imaging.

NO.4

JEF BOEKE: Advance synthetic genomes

Director of the Institute for Systems Genetics, New York University Langone Medical Center, New York City.

When I realized that it would be possible to write an entire genome from scratch, I thought it would be a great opportunity to gain new insights into genome function.

From a purely scientific perspective, the research team has made progress in synthesizing simple bacterial and yeast genomes. But there are still technical challenges in synthesizing entire genomes, especially mammalian genomes.

There is a technology that reduces the cost of DNA synthesis that will help the industry, but it is not yet on the market. Most DNA synthesis that occurs today is based on phosphoramidite chemical processes. The resulting nucleic acid polymers are limited in both maximum length and fidelity.

Many companies and laboratories are working on enzymatic DNA synthesis - a method that has the potential to be faster, more accurate and cheaper than chemical synthesis. Currently, no company offers this molecule commercially. But last October, a Paris-based company called DNA Script announced that it had synthesized a 150-base oligonucleotide that nearly meets the practical limits of chemical DNA synthesis.

As a group, we have also studied how to assemble large fragments of human chromosomal DNA, and we can use this method to construct regions of 100 kilobases or more. Now we will use thismethod to dissect large genomic regions that are important for identifying disease susceptibility or that underlie other phenotypic traits.

We can rapidly synthesize these regions in yeast cells, so we should be able to make dozens to hundreds of genomic variants that were previously impossible to detect. Using them, we will be able to examine thousands of genomic loci implicated in genome-wide association studies that have implications for disease susceptibility. This dissection strategy may allow us to ultimately determine the role of these variants.

NO.5

CASEY GREENE: Apply AI and deep learning

Assistant professor of systems pharmacology and translational therapeutics, Perelman School of Medicine, University of Pennsylvania, Philadelphia.

㈣ Blockchain Internet people who provide "solutions" to traditional industries have found many cases of subverting traditional industries by discovering user pain points and cutting in at the right time; in the blockchain era, as technology becomes increasingly mature, by "solving trust", there are more Opportunities to achieve subversion and innovation in multiple industries; even the automobile maintenance industry, which the "Internet" finds difficult to crack, has begun to be subverted by "blockchain". What is impossible?

Niu Wenwen, founder and chairman of Dark Horse Academy, often says that "all business in China is worth doing again." Niu Wenwen's words are more about Internet people, and they also describe the new opportunities brought by the Internet's transformation, impact, and transformation of traditional industries. In the process of providing "solutions" to traditional industries, many Internet people continue to discover the pain points of the industry. Many people have solved the "predecessors" in this industry and become famous in the world.

1. In "providing solutions", Internet cases that subvert traditional industries.

1. Before the establishment of Flash Delivery (a new express delivery model that provides users with direct delivery and time-limited intra-city delivery services), the team mainly provided SAAS software services for domestic express delivery companies. Help express companies provide technical support and "solutions". While providing "solutions" to many express delivery companies, I discovered a gap in the market for "same-city" express delivery. I innovated the model and fought for it.Become famous. Up to now, there are more than 700 members in the Shanshuo team, with services covering 177 cities, more than 78 million users, and more than 410,000 Shanshuang employees.

2. Before the establishment of Aijia Life (creating a one-stop home decoration service platform by integrating social resources such as real estate, designers, brand hard decoration, and brand home furnishings, focusing on a simple and high-quality lifestyle), The team mainly provides CRM customer management system software services for real estate developers. When cooperating with real estate developers for a long time and providing "solutions", they discovered the industry pain points in the home decoration market. With the help of long-term cooperation resources in real estate, we started the "Home Decoration 3.0" era. , less than 3 years after its establishment, the contract value exceeded 10 billion, causing great ripples in the home decoration industry.

Although we can find many such cases. BUT, in some industries, even if Internet people try hard and try one after another to subvert through "Internet +" or "+Internet", most of them fail. In which industries? They are those industries where the "trust crisis" is serious and cannot be broken through and alleviated by Internet technology alone.

2. By “resolving trust” to disrupt and innovate many industries, “Blockchain ⅹ” will stimulate great vitality.

Before the emergence of blockchain, there were only three types of credit systems in the world. The first was based on morality, which relied on moral constraints to solve the problem of trust. The second is based on faith. Because Christians believe in God and rely on a common belief, they have established a credit system. The third is the system design based on the government. We all rely on the credibility of the government as the backing. Based on these three systems, it is always difficult to form a closed loop for certain industries or certain links in the industry. The so-called "pain points" solved by Internet people are all based on staged and specific scenario transformation and subversion.

With the emergence of blockchain, there is a new cornerstone of the credit system in the world---algorithm, which has a characteristic, which is consistency. No matter the time or place, as long as the input is determined and the algorithm is used, the output will be determined. The new credit system established by blockchain based on this characteristic has created new opportunities for change in many industries such as finance, energy, government, medical care, copyright, Internet of Things, agriculture, charity, etc. As regulatory norms, industry norms, and technological maturity continue to improve, the blockchain industry bubble will gradually disappear and accelerate into a new stage of close integration with the real economy. If the blockchain 1.0 and 2.0 eras are called "blockchain+", then the 3.0 era should be called "blockchainⅹ", which will promote the transformation of the entire social pattern more efficiently.

3. The automobile maintenance industry willBeing subverted by "blockchain", what else can't be done?

Take the automobile maintenance industry as an example. "Trust" has become a pain point that is difficult to break through in the industry. Information in the industry chain is opaque; manufacturers and distributors cannot grasp accurate data on market consumption and inventory; repairers cannot find suitable accessories in massive inventories, making ordering difficult and delivery slow; consumers cannot find high-quality repair stores. It takes time and effort. China's automotive aftermarket is worth trillions. Internet giants such as Alibaba and JD.com have invested heavily in the market, but have had no trouble and mediocre results. Internet people have never been able to solve the "crisis of trust" in the automotive aftermarket. Breakthrough.

CarFix, as the issuer of the Vehicle Lifecycle Blockchain Token (VLB), hopes to guide many automobile manufacturers, dealers, repair shops, insurance companies, parts dealers, etc. Players in the cyclical industry enter a new "era" and hope to, in the company's words, "change the face of one of the world's most outdated industries." Developing and building a blockchain platform to bring transparency and record immutability to the automotive lifecycle industry - data from the first time a car is assembled on the factory floor, all the way to the time it is recycled in the junkyard The entire process is transparent and cannot be changed. Using this blockchain to perform routine maintenance work builds consumer trust in maintenance personnel.

CarFix claims that it has created an ecosystem of trading software platforms, repair shops, spare parts suppliers and dealers. In this system, any repair work can be immediately priced through an algorithm, the algorithm and the price are transparent, and the maintenance service can be booked as easily as booking a hotel room. Its ecosystem currently includes more than 500 repair shops, the 10 largest spare parts distributors, main dealers and more than 250,000 users, 50,000 of whom are regular paying customers. This ecosystem is clearly still thriving and will further enhance blockchain’s core capabilities of decentralization and immutability of records. In essence, blockchain tokens are endorsing industries that were once considered “untrustworthy” and helping them regain the trust of consumers.

With the smooth development of public chains such as EOS and AE, we can foresee that there will be more DAPPs based on application scenarios that solve real-life problems, and blockchain will soon penetrate into our lives. Every corner is integrated with our lives. Fortunately, as of the end of March this year, the number of blockchain companies in my country with blockchain as its main business reached 456, and the industry has initially formed a scale. As the innovation and development of blockchain technology gradually matures, blockchain applications have extended from the financial field to the physical field, including electronic information storage, copyright management and transactions, product traceability, digital asset transactions, Internet of Things, intelligent manufacturing, supply Chain management and other fields have formed a number of "industrial blockchains"project.

~ At 13:14 every afternoon, you are welcome to come to Qiao’s Courtyard to enjoy tea~

㈤ 2. What is CSC Car Enjoy Chain

Car Enjoy Car Sharing Chain (CSC) is the world's first officially launched blockchain-based pan-mobility ecosystem, dedicated to building a credit system and incentive ecosystem for the automotive industry. Any vehicle in the society that can be used for shared travel and car users with travel needs can participate in it and obtain the ecosystem incentive "Car Enjoy Beans" through a certain accounting mechanism.

㈥ Standing at the starting point of the new world, discussing “what a smart car should look like”

(June 14, 2022, Shanghai) Breaking the longest drift distance of electric vehicles in the world Record, after climbing to the top of the "New King of Electric Driving Control", in just two months, the "New World Driving Control Flagship" Zhiji L7 once again opened the door to a new era. Under the name of "New World Intelligent Origin", it is based on intelligence. In this era of rapid development of science and technology, we will explore the construction of new standards for automobile intelligence in the new world from the five major dimensions of smart cars: intelligent driving, scene intelligence, social capabilities, continuous evolution capabilities, and diverse co-creation.

Zhiji Auto’s multi-dimensional consideration of “the iconic characteristics of the development level of automobile intelligence”, “the disruptive experience created by intelligent technology”, “the inevitable needs of users triggered by the 5G era”, “driving the continuous evolution of automobile intelligence” "The underlying logic" and "the greatest possibility of creating value in the metaverse" and other key elements, in order to trigger people's vision of smart travel from a more diverse dimension, extending from the step-wise development of autonomous driving to a more imaginative space to pay tribute to the infinite opportunities brought by the technological wave.

Just as the birth of the automobile once completely overturned human "life", today's budding intelligent automobiles will inevitably redefine human beings' understanding and experience of "life". Standing on this tiny starting point, Zhiji Auto took the lead in proposing the "Five Standards for Automotive Intelligence in the New World". It is expected that after opening the door to the new era of intelligence, we will explore automotive intelligence from a higher perspective, a broader vision, and a deeper practice. Truly create "what a car should look like in the intelligent era."

Intelligent driving丨Iconic development feature, truly opening up the origin of free travel

Intelligent driving is the most thorough change in the traditional human-vehicle relationship in the 136 years since the birth of the car The subversion of cars has allowed cars to return to their original aspirations of pursuing freedom; thus, it has become the core track for smart car brands to compete for technological strength. This is where true freedom of travel begins.

The "New World Driving Control Flagship" Zhiji L7 uses the amazing IM AD Zhiji intelligent driving system test performance to prove that China's automobile intelligent driving technology has surpassed the primary stage of simply stacking hardware configurations, with enough The actual combat capabilities of the world's leading players are shaken, and the most iconic features of current smart cars are vividly interpreted. Artificial intelligence super algorithm derived from L4 level same algorithm platform, Zhiji L7 can now fully rely on the visual fusion solution to fully handle the high-level capabilities of complex road scenarios such as "vehicle jamming on congested roads", "dodge of large and special-shaped vehicles", and "high curvature curves", far ahead of the industry The leading brand brings users a "more human-like" intelligent driving experience.

More importantly, Zhiji L7’s software and hardware upgrade capabilities are also in a leading position in the world. The IM AD smart driving system, targeting the first echelon in the industry, supports the exchange of user data rights to upgrade the lidar fusion smart driving system (including high-precision lidar and high computing power Orin chip), through continuous iteration of software and hardware integration Evolve to create an “exclusive artificial intelligence driver” for every user.

Continuous evolution capability｜Digital-driven iteration on the cloud, smart cars become digital life forms

Intelligence makes cars truly Digital life form. Product off-line is only the beginning of life. Only full-dimensional intelligent evolution can give cars the vitality to grow. Different from simply equating software OTA with intelligence, Zhiji Automobile firmly adheres to the technical route of collaborative upgrade of software and hardware, taking "upgradeable hardware" as the trunk of growth, "software iteration" as development thinking, and digitally driven iteration on the cloud, thereby allowing " The digital life form "smart car" has the ability to evolve itself.

The debut of Zhiji Auto’s “Cloud Data Super Factory” was jointly built by Zhiji Auto and Alibaba Cloud. As the world's leading cloud vendor, Alibaba Cloud has received the highest scores in the world in the four fields of IaaS computing, storage, network and security in the annual report of the international authoritative organization Gartner. It not only provides the world's leading ultra-high data security, but also makes all evolution The required computing power will no longer be a bottleneck, fully assisting Zhiji Auto to achieve the sustainable and in-depth evolution of intelligent driving and global intelligence. Especially in terms of intelligent driving, Alibaba Cloud provides high-performance elastic computing, low-latency networks, and efficient hot and cold tiered cloud storage solutions for IM AD data collection, annotation, uploading, computing, and AI training. Links provide highly reliable and efficient technical support.

Diverse co-creation｜In the excitement of virtuality and reality, meet N selves in the "parallel universe"

Data creates value, and co-creation unlocks imagination …This is the consensus of people embracing the new era. Smart cars break through the physical characteristics of displacement tools and will become an ideal carrier for multi-dimensional space-time transformation in the metaverse. With the entanglement and excitement of the real and virtual worlds, the breadth of users' life experience will be drastically changed.

Zhiji Auto took the lead in moving from the "Information Internet" to the "Value Internet". As a pioneer in diversified co-creation, Zhiji Auto applies cutting-edge blockchain technology to the smart car industry for the first time, taking the "Original Stone Valley User Data Rights Platform" as the core to build a new production relationship, making smart cars the driving force of the metaverse. The necessary engine to continuously develop value. It is reported that Zhiji Automobile will bring more full details of the multiverse on July 12.Stay tuned for new experiences.

The "Five Standards of Automobile Intelligence in the New World" are the five major directions for smart cars to start from the starting point of the new world and fly towards the future without setting limits. Starting from this starting point, every small step forward will be driven by the inevitable of the times, creating endless new scenes and disruptive experiences. This is the original intention of Zhiji Auto to respect the times and look forward to the future. Starting from June 18, Zhiji L7 will be delivered to the first batch of users across the country. In the future, Zhiji Auto will strive to work with users and the times to explore, discover, and create, and to show "what cars should look like in the intelligent era"!