We are building the machine network of the future. This is the era of silicon-based civilization. The most important resource in this era is data. These data are generated by smart devices, mining machines, 5G transmission, AI analysis, database storage, and maintained in a centralized and decentralized manner. Data is the most important resource of this era.
The network will generate massive amounts of data, structured and unstructured. I personally feel that structured data can provide services more efficiently and accurately, and is highly targeted. Here, by the way, IPFS, IPFS can store these data after it is online, including corporate data, ordinary user data, and structured and unstructured data. Unstructured data can also find value through AI and data mining. IPFS will store all kinds of data, some for industries and some for individuals. Can a data ecology be formed around these data? Only when IPFS is very stable, secure, and low in storage costs, will companies transfer data from central servers to ipfs, otherwise there is no need to migrate data, because for businesses and individuals, the most important thing is security, stability, low cost, and whether it is decentralized Ordinary people don't care about storage methods. Also, DApp data needs to be stored on a decentralized network and so on. Regarding the discussion about it, there is more to talk about, and we will discuss later. At present, I don't understand ipfs.
Let's look at the blockchain field again. From 18 years to the present, there has been no technological breakthrough in the blockchain. After the halving, the market has no hot spots and no story to tell. At present, the only progress that can be expected is Ethereum 2.0. The public chain-based application is only defi worthy of attention. Others, such as games, are almost of no value. Part of the reason why DApp has no users and value is due to the low tps, and more because DApp has no good positioning and is not distinguished from centralized applications. Many applications do not need to be decentralized. Fairness, transparency, and security are certainly important, but these are basic needs. They only take into account the basic needs, without breakthroughs in applications and models, unable to attract users, and not talking about ecological development.
The breakthrough direction of the blockchain must be in areas that the giants cannot monopolize. These areas have high operating costs and low efficiency, and it is difficult for giants to enter.
The resources on the long tail network are widely distributed, and the sum of these resources is equivalent to the head resources. But the cost of collecting all the long tail resources is too high, which has become a stumbling block for the giants. What if the long-tail network is transformed by the blockchain method? It is to collect data by crowdsourcing, and make the system self-operate with economic incentives, so that long-tail resources can be collected at a lower cost.
Whether the data generated by individuals, companies, and DApps is valuable depends on whether the data can provide broad social value. That is, whether data can provide valuable services to users and enterprises. Here also answer the question about ipfs mentioned above. ipfs can store a large amount of data, but its data sources will mostly be individuals, companies, and DApps, that is, these data are mainly used for specific users, specific companies, and specific DApps. There is no correlation between these data, and most of them cannot As the underlying public data, its application range is limited.
The most valuable data must be the underlying data that can generate extensive ecological value.
Let’s take a look at what the Hyperion Map public chain is doing.
Haibo did not benchmark Ethereum and build a comprehensive public chain, but instead used map data as the core to build a data public chain and develop a map ecology. With the support of basic data, blockchain applications can move forward. The positioning of the map public chain also conforms to the above-mentioned explanation of silicon-based era data as an important resource.
The map is an important data resource in the future, because the map has a natural distribution (that is, scattered data on the long tail network), which leads to very high collection costs. Major map companies have to invest in high-cost production of maps, including automobiles and mapping equipment. They have to travel N kilometers every year to complete the map. Road conditions are constantly changing, map data needs to be updated frequently, and the cost of map production and maintenance remains high. Even if a lot of costs are invested, it is still impossible to draw all maps of the world.
The map is divided into ordinary map and high-precision map. We often use ordinary maps, mostly for positioning and navigation applications. Most of our apps use the map function, and there are more than n drivers using map navigation every day. Map data is an important underlying basic data.
There is also a high-precision map, he needs to collect more data, such as: slope, curvature, slope, altitude, etc. He mainly provides map data for driverless cars and small drones. The driverless car compares the high-precision map with the data collected on-site, which can more accurately judge the road surface conditions, and the same is true for small drones. Imagine the flying cars in the movie. They all have channels in the air. In the future, these will require high-precision maps. In addition, Google Maps previously opened up map data, allowing game merchants to access it, and integrate real-world map scenes into the game, such as The Walking Dead. They used real world map scenes. The combination of real maps and games is also an important trend.
There are more map application scenarios. In short, map data has become an important infrastructure.
Haibo reshapes the map ecology in a blockchain way. Reduce the cost of map data collection by crowdsourcing, and use hyn token as a reward to encourage participants to collect and maintain map data.
There are many application scenarios for hyn. Participants provide data to obtain hyn rewards, and users who use maps pay hyn to obtain map data. The growth of map data usage and hyn's deflationary combustion model will increase the scarcity of hyn and the price will continue to rise, which in turn will encourage participants Continue to provide data to get more returns.
The Haibo map blockchain adopts a three-layer architecture:
alas chain: storage, consensus map data
mp3 node: mainly provides map data services
Titan client: a client that collects and uses map data, and can also be used as a fog node to provide data services
Haibo separates data storage, consensus, and data-providing services, that is, the alas chain and mp3 nodes complete data consensus and data services respectively. Through this layered approach, data consensus and services are avoided on the same chain, causing congestion.
mp3 nodes will be deployed in major regions and cities around the world. When users use map data, they will preferentially select the nearest mp3 node to provide services for themselves based on their current location.
This is equivalent to deploying n map servers in multiple regions, and each server provides nearby map data. This design can meet the timeliness of map services.
The Titan client needs to be installed on the mobile terminal. Users only need to take photos and enter the corresponding geographic location information to collect and upload data to get hyn rewards.
Such a three-tier structure perfectly combines map data consensus, services, and collection, and also allows blockchain projects to move from the PC side to the mobile side, making it easier for ordinary people to solve blockchain projects.
Once mobile users learn about Titan and use Titan, the reward mechanism will encourage users to continuously upload map data to the map public chain. The increase in map data will enable mp3 to provide more services and increase the demand for hyn, and the increase in hyn value can attract More participants join the alas chain node, mp3 node, and use Titan to collect maps, and finally form a positive cycle of map public chain value.
The map public chain is grounded. It is rooted in widely used basic data and mobilizes the enthusiasm of mobile users. Its vision and landing are not castles in the air.
Future prospects:
Haibo and traditional graphic merchants are not opposed to each other. The two parties are in fact a complementary relationship. The map public chain can completely serve as the bottom layer of those map vendors, providing them with data and reducing the cost of mapping. Drawing costs are too high now, and graphic companies are also trying to reduce costs.
When the map truly becomes the underlying public chain, hyn will be used frequently. When the user base of hyn is large enough, the consensus is large enough, the number of tokens is relatively dispersed, and the value is recognized by most people, it will gradually change from a pure application token It is a reserve asset with financial attributes. This change is an important manifestation of hyn's value.
Haibo’s story, forward-looking, structural advantages, intrinsic value, and trading depth, if recognized by institutional investors, will benefit many early investors.
Suggestion:
Haibo is growing up under the background of new infrastructure. The data he created is also an important basic setting, integrated with the country's positioning. Nor does it touch the very sensitive financial sector.
Therefore, the Haibo team can fully strive for support at the zf level.
For zf, 1. Low-cost, high-quality map data is conducive to promoting industrial development and supporting the construction of new infrastructure.
2. Blockchain is a national policy, and supporting new infrastructure construction by way of blockchain is a perfect interpretation of the policy.