01:58-03:32 Overview of the 1 hour talk and hangout.
03:32-04:58 Nick's status of the new SolarCoin Core.
04:58-13:28 Open Source IOT for Solar Blockchains, the Proof-of-Concept Phase, Nick's talks with large energy producers and the roadmap ahead.
13:28-14:55 Attack vector scenarios and Elliptic Curve chips and implementation.
14:55-23:20 Steve's explanation of his methods and concatenation between RPI generated private keys, and Know-Your-Device (KYD) centric datalogging. ECDSA entropy sources and non-repeatability. Proper implementation frameworks of ECDSA. An overview comment about EdDSA. Functional datalogger has been logging for over 1 year.
23:20-26:10 Signing the message with a verified address. This has been implemented in code (RPC) on an IOT device. Explanation of the blockchain scraper program called Sunfinder.py.
26:10-29:47 Luke's explanation of blockpass.org KYC procedure open protocol, and additionally the KYD procedure. Steve's explanation of the two blockexplorer types and positives and negatives of (Chainz vs. Local version of RPC calls in python). Chainz gets us through POC phase but the Local version going forward.
29:47-33:00 Ilia and the SolarPi team overview of datalogging philosophy and connection to the inverters (SolarPi won the Smart Energy Hackathon in Bangkok). They are making an API total solution framework. Nick has reached out to Enphase, and maybe SMA. SolarPi has made a POC paper.
33:00- 41:00 (Turn up your volume if listening) Domme from SolarPi and his overview. Certification of blockchain birth services (What Chain-of-Things was working on). Know Your Device services and value added on the birth of the devices. The SolarPi team is focused on helping affiliates datalogging so that the main private SolarCoin Foundation API can be leveraged by affiliates.
41:13-42:00 (Can adjust volume down) Francois business development schedules in Europe for November and December.
42:00-48:10 Luke/ Steve/ Francois/ Ilia ElectriCChain philosophy. Blockchain agnostic protocol for IOT devices. Some Q&A, an explanation of the ELCC cross-chain protocol. This is a 523 character set that has been implemented in JSON.
48:10-53:20 Example of ELCCpv1 protocol JSON by Steve. Generation datalog (Genv1) and system datalog (Sysv1). Hashing and signing of the datalogs at IOT edge and posting into the open blockchain. Luke explains the engineering philosophy behind the ELCCpv1 protocol. Energy prediction protocols that live on the 523 character set as scrapers to verify solar generation at the IOT blockchain edge. Local peer cross-checking positives and negatives of critical mass implementation. (Another project down the line.)
53:20-57:35 Explanation and comment from Max, the IOT specialist and engineer at the Solarly project. Reducing attack surface vectors. The balance between full open-source and security. Challenges.
57:35- 1:01:53 Francois schedules and talk about the Solar Power Europe Digitization report that SolarCoin has contributed to.
1:01:53- 1:06:28 Luke's question and explanation about the two different rails that can be tokenized with respect to solar energy and the blockchain space. The transaction rail (L03, Transactive Grid PowerLedger and others) and also the Rewards Rail (SolarCoin). The explanation of Metcalfe's law vs. Moore's law with respect to solar energy and the blockchain space and how these two trends will converge. Solar energy production costs are highly localized and Moore's law reduction in costs for each generation of the energy produced will be very geographically spread out and distributed in nature, so the Transaction rail will be highly localized. This is also trending to very low costs per unit of energy produced (Cost/kWh). The reward rail is growing in the direction that is depending on network effects (Metcalfe's law), so this will increase the reward given out (Cost/kWh). Ultimately there will be differences between the two, and eventually convergence between the thousands of Tx rail tokens and the reward token.
01:58-03:32 Overview of the 1 hour talk and hangout.
03:32-04:58 Nick's status of the new SolarCoin Core.
04:58-13:28 Open Source IOT for Solar Blockchains, the Proof-of-Concept Phase, Nick's talks with large energy producers and the roadmap ahead.
13:28-14:55 Attack vector scenarios and Elliptic Curve chips and implementation.
14:55-23:20 Steve's explanation of his methods and concatenation between RPI generated private keys, and Know-Your-Device (KYD) centric datalogging. ECDSA entropy sources and non-repeatability. Proper implementation frameworks of ECDSA. An overview comment about EdDSA. Functional datalogger has been logging for over 1 year.
23:20-26:10 Signing the message with a verified address. This has been implemented in code (RPC) on an IOT device. Explanation of the blockchain scraper program called Sunfinder.py.
26:10-29:47 Luke's explanation of blockpass.org KYC procedure open protocol, and additionally the KYD procedure. Steve's explanation of the two blockexplorer types and positives and negatives of (Chainz vs. Local version of RPC calls in python). Chainz gets us through POC phase but the Local version going forward.
29:47-33:00 Ilia and the SolarPi team overview of datalogging philosophy and connection to the inverters (SolarPi won the Smart Energy Hackathon in Bangkok). They are making an API total solution framework. Nick has reached out to Enphase, and maybe SMA. SolarPi has made a POC paper.
33:00- 41:00 (Turn up your volume if listening) Domme from SolarPi and his overview. Certification of blockchain birth services (What Chain-of-Things was working on). Know Your Device services and value added on the birth of the devices. The SolarPi team is focused on helping affiliates datalogging so that the main private SolarCoin Foundation API can be leveraged by affiliates.
41:13-42:00 (Can adjust volume down) Francois business development schedules in Europe for November and December.
42:00-48:10 Luke/ Steve/ Francois/ Ilia ElectriCChain philosophy. Blockchain agnostic protocol for IOT devices. Some Q&A, an explanation of the ELCC cross-chain protocol. This is a 523 character set that has been implemented in JSON.
48:10-53:20 Example of ELCCpv1 protocol JSON by Steve. Generation datalog (Genv1) and system datalog (Sysv1). Hashing and signing of the datalogs at IOT edge and posting into the open blockchain. Luke explains the engineering philosophy behind the ELCCpv1 protocol. Energy prediction protocols that live on the 523 character set as scrapers to verify solar generation at the IOT blockchain edge. Local peer cross-checking positives and negatives of critical mass implementation. (Another project down the line.)
53:20-57:35 Explanation and comment from Max, the IOT specialist and engineer at the Solarly project. Reducing attack surface vectors. The balance between full open-source and security. Challenges.
57:35- 1:01:53 Francois schedules and talk about the Solar Power Europe Digitization report that SolarCoin has contributed to.
1:01:53- 1:06:28 Luke's question and explanation about the two different rails that can be tokenized with respect to solar energy and the blockchain space. The transaction rail (L03, Transactive Grid PowerLedger and others) and also the Rewards Rail (SolarCoin). The explanation of Metcalfe's law vs. Moore's law with respect to solar energy and the blockchain space and how these two trends will converge. Solar energy production costs are highly localized and Moore's law reduction in costs for each generation of the energy produced will be very geographically spread out and distributed in nature, so the Transaction rail will be highly localized. This is also trending to very low costs per unit of energy produced (Cost/kWh). The reward rail is growing in the direction that is depending on network effects (Metcalfe's law), so this will increase the reward given out (Cost/kWh). Ultimately there will be differences between the two, and eventually convergence between the thousands of Tx rail tokens and the reward token.
Great post