MEGA PROMOTION FROM DEXNET
Every day 100 tokens up to the 13th block are credited if you complete the simple terms and conditions of the promotion:
- DexNode must be purchased beginning September 24
- Beginning September 24, buy 3 drawing tickets to be entered into a drawing for a Lamborghini Huracan and 70 more exclusive prizes!
Bonus tokens will be activated upon request to support at DexNet.one within 24 hours of ticket purchase!
Catch your chance for extra tokens!
IPFS 2.0 or hardware implementation of the protocol
As a basic protocol for data transfer between Dex-nodes is used technology IPFS in its hardware implementation deprived of its disadvantages.
IPFS is a p2p protocol that connects connected devices into a network with a common file system (InterPlanetary File System). It was introduced by engineer Juan Benet in 2015. Today the protocol is supported by Protocol Labs and the open source community.
The goal of IPFS is to fix the shortcomings of the client-server model that underlies the modern Internet. The protocol implies that data does not depend on source servers and is stored separately - a model reminiscent of torrents. The role of the address for access to files, documents and other information is a cryptographic hash "bound" to the contents of the object. However, the functionality of IPFS is not limited to file sharing, and based on the protocol are built distributed application sites and entire platforms for developers.
Some browsers work with IPFS - the first desktop application was Brave, whose team participated in the development of the protocol.
IPFS support also appeared in Opera for Android. Simultaneously with the browsers it is implemented by various sites - for example, web-hosting Neocities for indie developers. Soon it was joined by one of the largest Western cloud providers.
Since IPFS is based on the idea of decentralization, blockchain projects were not left out. In 2017, the authors of the protocol launched the Filecoin data storage platform. Its participants earn money by renting out disk space.
In the IT community, there is an opinion that the protocol is developing too slowly and still remains unfinished. Seven years after its launch, versions are still starting from scratch and rarely receive major updates.
Working with the basic protocol without hardware upgrades is also challenging. Hacker News notes that attempts to use it for different projects, each time accompanied by slow downloads, problems with IPNS (this is a specialized name system) and the inability to associate domains with hashes.
At the same time, because of its decentralized IPFS is poorly suited to work with sensitive data. To be fair it is worth noting that projects allowing to build local storages based on IPFS - for example, Nebulus. However, its applicability is also questioned - there was even a heated discussion about this open framework on Hacker News.
Hardware modernization of the protocol and the creation of the Dexnet platform will allow to reach a whole new level, solving the complexity of the representation of addresses and the speed of data exchange.
IPFS is based on hash addressing, that is, a value returned by a hash function is used as the address. This results in a URL that is hard to write and read.
Even the developers of the base protocol themselves note that finding and implementing effective mechanisms related to the conversion of IPFS addresses into human-understandable constructs will help the technology spread.
Dexnet, through hardware upgrades to the protocol, solves the performance problem. The basic protocol can run fast, but through caching proxies. It's common to have to wait 45 seconds for a file to start downloading. Placing the protocol on an adapted hardware platform with the integration of alternative independent communication channels to exchange service information complemented the protocol getting rid of these shortcomings, thereby creating a precedent for the technology WEB 4.0.
DEXNODE Technical Specifications
- CPU: 4-core Rockchip RK3566
- Ethernet: RJ45, Wi-Fi
- GSM: with e-SIM from DEX Mobile
- Dex Wan: proprietary high-frequency ground channel at 915 MHz, 5.5 km
DEX nodes are physical devices: a node, a micro-server with large SSD storage and 3 alternative communication channels. Nodes form a distributed, decentralized environment on which DEX services are deployed by connecting to each other using the P2P principle.
channels
The devices are equipped with 3 communication channels:
01 Own high-frequency channel
Autonomous communication channel at 915 MHz, thanks to which the DEX Node detects each other within a radius of up to 5.5 km. and form a stable and secure communication channel, overlapping each other by ground radio signal and combining with each other on the principle of a beehive.
02 GSM
DEX Mobile based on DEXNET technology is a decentralized mobile network operator. Each DEX node is equipped with a GSM module. It is directly connected to the DEXNET network.
03 Public Internet
Additionally, the nodes utilize the public Internet to transmit significant amounts of encrypted data packets in parallel.
DEX Rate of node
Dex Rate is a unit of account for the potential of a node's computing power, by which the number of distributed DexNet tokens is multiplied before being credited to the node owner's wallet every minute.
The metric takes into account network apline, bandwidth, link signal quality, and SSD disk capacity.
Minimum bandwidth requirements for a node's Internet connection:
Up: 0,10Mbps;
Dw: 0,30Mbps.
Optimal:
5Mbps and up;
Dw: 15Mbps and up.
The range of the Dex rate parameter is 0.00001 to 1.
Amount of reward:
Users are rewarded in DexNet tokens for ensuring uninterrupted operation of DEX Node devices.
The amount of reward depends on the number of devices simultaneously working in the network. The total number of active devices is taken into account
DEXNET
advantages
DEXNET solves most of the problems associated with centralization by supplementing the traditional Internet with a network of physical devices - DEXNODE equipped with its own blockchain and independent communication channels.
Ownership and privacy
All private information belongs solely to its owner, as files are encrypted into containers and distributed across nodes. The system ensures availability and redundancy even if nodes go offline.
Secure data transmission
Data sent to the public Internet is encrypted and transmitted over DexWan's proprietary high-frequency channel or GSM, bypassing traditional Internet routes. This ensures confidentiality and protection against interception.
Decentralized data center
DEXNET's decentralized architecture eliminates the vulnerabilities associated with centralized data centers, such as physical security, legal issues, and power distribution concerns.