CryptoMove San Leandro Smart Lights Project: Difference between revisions
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{{ActionCluster | {{ActionCluster | ||
| | |image=CasaPeraltaLights.png | ||
| team | |team=CryptoMove, Paradox Engineering | ||
| leader | |leader=Anton Batalla | ||
| | |imagecaption=Interactive Lights along W.Estudillo | ||
|municipalities=San Leandro CA | |||
|status=Implemented | |||
| municipalities | |website=http://sanleandronext.com/smart-san-leandro-welcome-to-our-new-open-data-hub/ | ||
| status | |download=CryptoMove-DataProtection-Wireless.pdf | ||
| website | |description=Create reference architecture for Smart Lights and Sensors via deployment of CryptoMove Moving Target Data Protection to render data onto a constantly shifting and mutating defensive fabric, thereby greatly decreasing the likelihood of exfiltration of sensitive data, and likewise for ransomware probability. | ||
| download | |challenges=Cities are under increasing attack due to ransomware and other threat actors | ||
| description | |solutions=CryptoMove’s proposed solution renders common attacks intractable as it removes contextual cues while increasing obfuscation via various distributed computation techniques | ||
Create reference architecture for Smart Lights and Sensors via deployment of CryptoMove Moving Target Data Protection to render data onto a constantly shifting and mutating defensive fabric, thereby greatly decreasing the likelihood of exfiltration of sensitive data, and likewise for ransomware probability. | |requirements=* Develop and assemble project team | ||
|requirements | |||
* Develop and assemble project team | |||
* Create scope and requirements, project plan | * Create scope and requirements, project plan | ||
* Develop system architecture | * Develop system architecture | ||
Line 19: | Line 17: | ||
* design and roll out pilot | * design and roll out pilot | ||
* Gain stakeholder support and buy-in from the City of San Leandro | * Gain stakeholder support and buy-in from the City of San Leandro | ||
|kpi=* Increased recoverability of data, stemming from corruption / ransomware | |||
| kpi | |||
* Increased recoverability of data, stemming from corruption / ransomware | |||
* Decreased vulnerability of private/confidential data to standard attacks | * Decreased vulnerability of private/confidential data to standard attacks | ||
| measurement | |measurement=* Penetration testing by third party evaluators as well as city government employees. | ||
* Penetration testing by third party evaluators as well as city government employees. | |standards=# Standardized processes are not unique to city or region and can be replicated and scaled up in multiple cities/communities. | ||
| standards | |||
# Standardized processes are not unique to city or region and can be replicated and scaled up in multiple cities/communities. | |||
# Interoperability guidance under PE.STONE and PE.AMI protocols by Paradox Engineering | # Interoperability guidance under PE.STONE and PE.AMI protocols by Paradox Engineering | ||
|cybersecurity=CryptoMove is currently being used by the Department of Homeland Security to secure live video data captured by drone fleets in flight. Fragmentation, Data Mutation, Encryption, along with constant movement are used to unanchor attackers from progressing down a kill chain | |||
|impacts=Instating Moving Target Data Protection on the Smart Light program ensures and protects the functionality of the program. The smart light program will save the City of San Leandro millions of dollars in energy costs and reduce greenhouse gas emissions by over 1000 annual metric tons. A successful data protection of the Smart Light program may lead to future projects such as smart parking, smart traffic sensors (etc.) which will only add to the impacts mentioned above. | |||
| cybersecurity | |||
CryptoMove is currently being used by the Department of Homeland Security to secure live video data captured by drone fleets in flight. Fragmentation, Data Mutation, Encryption, along with constant movement are used to unanchor attackers from progressing down a kill chain | |||
|impacts | |||
Instating Moving Target Data Protection on the Smart Light program ensures and protects the functionality of the program. The smart light program will save the City of San Leandro millions of dollars in energy costs and reduce greenhouse gas emissions by over 1000 annual metric tons. A successful data protection of the Smart Light program may lead to future projects such as smart parking, smart traffic sensors (etc.) which will only add to the impacts mentioned above. | |||
* Improving cyber security | * Improving cyber security | ||
* Decreasing needs for intrusion maintenance | * Decreasing needs for intrusion maintenance | ||
* Community acceptance to be replicated across other Smart Cities/Smart Lights/Smart Sensors initiatives across the United States | * Community acceptance to be replicated across other Smart Cities/Smart Lights/Smart Sensors initiatives across the United States | ||
| supercluster | |demonstration=Real-time working application tied into City of San Leandro’s Paradox Engineering Smart Lights platform. Demonstration will include simulated data exfiltration, data corruption, and ransomware attacks and impact to the platform with and without the proposed solution | ||
| year | |chapter=Smart Lighting | ||
|supercluster=Wireless, Cybersecurity and Privacy | |||
|year=2018 | |||
|title=Implementation of Moving Target Data Protection to secure Smart Lights and Sensors, City of San Leandro, California | |||
|email=tbatalla@sanleandro.org | |||
}} | }} | ||
Latest revision as of 22:09, January 24, 2023
CryptoMove San Leandro Smart Lights Project | |
---|---|
Interactive Lights along W.Estudillo | |
Team Organizations | CryptoMove Paradox Engineering |
Team Leaders | Anton Batalla |
Participating Municipalities | San Leandro CA |
Status | Implemented |
Document |
Description
Create reference architecture for Smart Lights and Sensors via deployment of CryptoMove Moving Target Data Protection to render data onto a constantly shifting and mutating defensive fabric, thereby greatly decreasing the likelihood of exfiltration of sensitive data, and likewise for ransomware probability.
Challenges
Cities are under increasing attack due to ransomware and other threat actors
Solutions
CryptoMove’s proposed solution renders common attacks intractable as it removes contextual cues while increasing obfuscation via various distributed computation techniques
Major Requirements
- Develop and assemble project team
- Create scope and requirements, project plan
- Develop system architecture
- Create application development team, develop application
- design and roll out pilot
- Gain stakeholder support and buy-in from the City of San Leandro
Performance Targets
Key Performance Indicators (KPIs) | Measurement Methods |
---|---|
|
|
Standards, Replicability, Scalability, and Sustainability
- Standardized processes are not unique to city or region and can be replicated and scaled up in multiple cities/communities.
- Interoperability guidance under PE.STONE and PE.AMI protocols by Paradox Engineering
Cybersecurity and Privacy
CryptoMove is currently being used by the Department of Homeland Security to secure live video data captured by drone fleets in flight. Fragmentation, Data Mutation, Encryption, along with constant movement are used to unanchor attackers from progressing down a kill chain
Impacts
Instating Moving Target Data Protection on the Smart Light program ensures and protects the functionality of the program. The smart light program will save the City of San Leandro millions of dollars in energy costs and reduce greenhouse gas emissions by over 1000 annual metric tons. A successful data protection of the Smart Light program may lead to future projects such as smart parking, smart traffic sensors (etc.) which will only add to the impacts mentioned above.
- Improving cyber security
- Decreasing needs for intrusion maintenance
- Community acceptance to be replicated across other Smart Cities/Smart Lights/Smart Sensors initiatives across the United States
Demonstration/Deployment
Real-time working application tied into City of San Leandro’s Paradox Engineering Smart Lights platform. Demonstration will include simulated data exfiltration, data corruption, and ransomware attacks and impact to the platform with and without the proposed solution