You control The Edge.You control The Data.

A DECENTRALISED TRANSMISSION NETWORK FOR THE IOT.

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A Cryptographically Secure Data Marketplace
Where Organisations Can Rapidly DeployCost-Effective
P2P IoT Networks

P2P for IoT

Peer-to-Peer IoT networks will change the land scape of information systems and facilitate greater diversity in function. Ping enables direct interaction between applications, users and connected devices.

Stack Disruption

Ping is changing the dynamics of IoT networks by distributing the load at the edge as well as in the object layer.This will open new potential for adapting infrastructures

cost Reductions

Stagnating ARPUs (average revenue per user)of $7.00-$12.00 per month, are barriers to widespreadIoT adoption rates and innovation. Something has to change and that thing is cost. Ping will facilitate ARPUs of $1.00p cm and drive scale across the stack.

No Subscriptions

PING changes the state of play and makes the onboarding process quick and simple. A single download to a smartphoneprovides an IoT connectivity and a gateway for devices. Multiple downloads will form a dedicated edge-network.There are no subscriptions, no lock-in periods and no long cycles for device connectivity and management.

Rapid Deployment

IoT and M2M connectivity involve long adoption cycles and the process can take anywhere from fifteen months to two years.These long cycles are frustrating and hampering for SMEs and many organisations. Design, configure and deploy your own network free from the constraints of traditional networks.

Divergent Business Models

At the core of the system is the PING-DTN – a decentralised transmission network for peer-to-peer communications. This protocol-facilitates sensing, broadcasting and transmitting of IoT data. The nature of the architecture will enable divergent business modelsfor IoT, by decentralizing M2M/IoT bandwidth and computing reserves.

PingNet Features

OPERATE OFFLINE

PING enables IoT devices to operate when they are out of coverage, poor bandwidth, or network penetration is lacking. When network connectivity is intermittent, PING will have you covered by utilising mesh-protocols and geo-distribution for secure device-device communications. Data can be aggregated and filtered from device clusters before sending to the closest smartphone over secure edge protocols. Data is then broadcast and transmitted across the PING network when the smartphone is in network range.

PingOS - GSMA AWARD WINNERS AT MWC FOR LOW POWERED NETWORK technology.

Take advantage of an industry-leading real-time operating system to support your IoT sensors. The PingOS is designed for connecting lightweight devices running on micro-controllers with the PING network, your systems or your blockchain.

EDGE to LEDGER

Deploy your applications to the edge. Develop your application code, deploy it and seamlessly execute embedded functionality on your network of devices. PING lets you manage and configure your embedded stack from the safety of your IoT platform, facilitating bi-directional communications between your system, the edge and IoT devices.

SECURE COMMUNCATIONS

PING provides encrypted device communications through best-in-class security protocols. Authenticate and encrypt data for edge, network and cloud communications. Leverage end-to-end handshakes between devices, networks and cloud platforms through hardware accelerated encryption. The network utilises IPFS (Interplanetary File System) cryptographic methods for communications and network nodes can exchange hash keys to request data objects. IoT packets will fully encrypted and transmitted over a secure P2P network.

EDGE NETWORK

Deploy mesh and edge networks to reduce communication costs, cloud storage and cloud processing. Reduce operational costs by harnessing decentralised computing power and connectivity. Decrease migration costs associated with sensing and transmitting data.

REACT TO LOCAL EVENTS IN NEAR REAL TIME

Devices connected to PING can act locally in order to trigger responses to events such as location, shock and temperature threshold breaches. Devices can share resources through a distributed network that is managed through edge protocols. Data is only sent when necessary. No data duplication or repetition - just insights to improve your BI.

25+

Projects Deployed

6m+

Tangible Events

155,000+

Live Devices on AT&T Network
Post

35m+

Projected Connections for PingNET

Powering Rapid Innovation

"The PING network changes the state of play for IoT and M2M adoption cycles and device deployments. SMEs and large organisations are no longer hampered by long adoption cycles with telecommunications networks, because a single download to a smartphone will provides IoT connectivity and a gateway. Multiple downloads will form a dedicated edge-network. There is no subscriptions, lock-in periods and more importantly, no endless cycles for device connectivity.
True scalability and the barriers to IoT adoption start to dissolve with PING. The network enables divergent business models bu decentralising IoT and M2M bandwidth and computing reserves."

Harnessing the Power of IPFS and LibP2P