EV Charging Barriers at Multi-Unit Dwellings by Whit JamiesonForth
Whit Jamieson, Program Manager at Forth gave this presentation at the Forth Clean Transportation For All: Access to EV Charging webinar on April 26, 2022.
Paramount to the future of safety and autonomy, the automotive imaging market is at a key crossroads.
More information on https://www.i-micronews.com/products/imaging-for-automotive-2019/
This document describes a smart parking system created by a group of students that uses cameras and artificial intelligence to manage a parking lot. The system recognizes vehicle numbers using embedded cameras, tracks which space a vehicle parks in, and updates parking information. It can also detect collisions. The system aims to introduce an intelligent parking management solution using technologies like sensors, IOT, and mobile applications to help drivers find available spaces and pay for parking remotely.
Electric vehicles are becoming an increasingly viable alternative to traditional gasoline-powered vehicles. The Indian government has implemented several policies and initiatives to promote electric vehicle adoption, including the FAME program and state-level EV policies. However, electric vehicles still only account for a small fraction of the automotive market in India. Continued government support through subsidies and incentives along with advances in battery technology that lower costs will be needed to accelerate electric vehicle adoption in India.
This document describes adaptive cruise control (ACC) and proposes using a PI controller to automatically adjust a vehicle's speed based on the distance to the leading vehicle. It presents a simplified vehicle model and discusses using distance and speed checks to determine the follower vehicle's speed output. Simulation results are shown graphically for the distance between vehicles and their speeds over time. The summary concludes that the model is a simplified first step but could be used to implement a basic ACC system.
Driver drowsinees detection and alert.pptx slidekavinakshi
This document describes a drowsiness detection system using deep learning. It aims to develop a prototype that can accurately monitor a driver's eye state in real-time to detect drowsiness and prevent accidents. The system uses a webcam and deep learning to analyze eye images and detect blinking. If drowsiness is detected, it will alert the driver via mobile and limit the vehicle speed. It will also capture an image, send the driver's location to the vehicle owner, and reduce the speed to prevent accidents from drowsy driving. The literature review discusses previous works on using sensors like eye blink detection and their limitations, showing the need for a non-intrusive deep learning-based solution.
Today, every person facing the problem of traffic jam on the road, road accident is the measure problem for us. So this device “SMART VEHICLE SECURA”, which can be useful for stopping the accident and also useful for saving the life of human being. It is a device that works to provide the security of the vehicles.
Introduction to Connected Cars and Autonomous VehiclesBill Harpley
This is the first of two lectures which were given to students and academic staff at the University of Portsmouth on March 28th 2017. It provides a broad overview of the technical and public policy challenges faced by the automotive industry.
EV Charging Barriers at Multi-Unit Dwellings by Whit JamiesonForth
Whit Jamieson, Program Manager at Forth gave this presentation at the Forth Clean Transportation For All: Access to EV Charging webinar on April 26, 2022.
Paramount to the future of safety and autonomy, the automotive imaging market is at a key crossroads.
More information on https://www.i-micronews.com/products/imaging-for-automotive-2019/
This document describes a smart parking system created by a group of students that uses cameras and artificial intelligence to manage a parking lot. The system recognizes vehicle numbers using embedded cameras, tracks which space a vehicle parks in, and updates parking information. It can also detect collisions. The system aims to introduce an intelligent parking management solution using technologies like sensors, IOT, and mobile applications to help drivers find available spaces and pay for parking remotely.
Electric vehicles are becoming an increasingly viable alternative to traditional gasoline-powered vehicles. The Indian government has implemented several policies and initiatives to promote electric vehicle adoption, including the FAME program and state-level EV policies. However, electric vehicles still only account for a small fraction of the automotive market in India. Continued government support through subsidies and incentives along with advances in battery technology that lower costs will be needed to accelerate electric vehicle adoption in India.
This document describes adaptive cruise control (ACC) and proposes using a PI controller to automatically adjust a vehicle's speed based on the distance to the leading vehicle. It presents a simplified vehicle model and discusses using distance and speed checks to determine the follower vehicle's speed output. Simulation results are shown graphically for the distance between vehicles and their speeds over time. The summary concludes that the model is a simplified first step but could be used to implement a basic ACC system.
Driver drowsinees detection and alert.pptx slidekavinakshi
This document describes a drowsiness detection system using deep learning. It aims to develop a prototype that can accurately monitor a driver's eye state in real-time to detect drowsiness and prevent accidents. The system uses a webcam and deep learning to analyze eye images and detect blinking. If drowsiness is detected, it will alert the driver via mobile and limit the vehicle speed. It will also capture an image, send the driver's location to the vehicle owner, and reduce the speed to prevent accidents from drowsy driving. The literature review discusses previous works on using sensors like eye blink detection and their limitations, showing the need for a non-intrusive deep learning-based solution.
Today, every person facing the problem of traffic jam on the road, road accident is the measure problem for us. So this device “SMART VEHICLE SECURA”, which can be useful for stopping the accident and also useful for saving the life of human being. It is a device that works to provide the security of the vehicles.
Introduction to Connected Cars and Autonomous VehiclesBill Harpley
This is the first of two lectures which were given to students and academic staff at the University of Portsmouth on March 28th 2017. It provides a broad overview of the technical and public policy challenges faced by the automotive industry.
This document summarizes a major project report submitted by Abhilash Dandotiya and Sarthak Agrawal for their Bachelor's degree in Electronics and Communication Engineering. The project is titled "SMART HELMET" and aims to design a helmet that can autonomously detect accidents using a transmitter and receiver circuit along with a microcontroller. The microcontroller used is an ATMEGA 8 chip. The project involves designing printed circuit boards for the transmitter and receiver, interfacing a GSM module, and programming the microcontroller with C language to send SMS messages in the event of an accident detection.
for Linux (WSL2) with full GUI and X windows support. Join this webinar to better understand WSL2, how it works, proper setup, configuration options, and learn to target it in your application development. Test your Linux applications on your Windows desktop without the need for a second computer or the overhead of a virtual machine. Learn to leverage additional Linux features and APIs from your applications.
Examples with Delphi 11 Alexandria and FMXLinux
The document discusses trends in the automotive industry and opportunities for connected vehicles. It outlines various value propositions for connected vehicle technologies for different customer segments including owners, businesses, dealerships, governments, and OEMs. It also examines the path from advanced driver assistance systems to fully autonomous vehicles and questions around standards, security, and business models in partnering to develop connected vehicle solutions.
Latest Audi Q3 instrument cluster with immobilizer: Structural and cost analysis
Reverse Costing - Structure, process and cost report - find more here: https://www.systemplus.fr/reverse-costing-reports/audi-bosch-fpk-generation-2-instrument-cluster/
Simultaneously edit Capella models with Team for CapellaObeo
Discover how several users working on a MBSE project can simultaneously edit the same Capella model without conflicts.
Automatic fine-grained locking
Thanks to a fine-grained locking mechanism, users automatically lock the model elements they are modifying. Modifications are performed on the shared model, and visible to other users as soon as they are saved.
Team for Capella is a Capella add-on to simply share your models on the same server.
>> This webinar was driven by Stéphane Lacrampe (Obeo Canada):
Co-founder of Obeo, Stéphane Lacrampe is director the North American subsidiary of Obeo in Vancouver, Canada. MBSE enthusiast, Arcadia/Capella evangelist and Open Source advocate, Stéphane is also an active INCOSE member.
Smart car-apollo auto-ppt-v4.3
Mozilla Indonesia presents Open source self-driving car - Friday, February 1, 2019
at Mozilla Community Space Jakarta, Mampang Prapatan.
Eventbrite
Advance Vehicle Advanced Driver Assistance Systems: Working & Features ADAS A...IRJET Journal
The document provides an overview of advanced driver assistance systems (ADAS) with three key points:
1. ADAS uses sensors like cameras and radar to help drivers and can detect things like lane departure, pedestrians, and oncoming collisions. This helps improve safety.
2. ADAS systems are classified as passive (warn drivers) or active (intervene in vehicle control). Examples of each are given.
3. The building blocks of ADAS including sensors, vehicle control, and processing are described. This technology is important for developing more autonomous vehicles.
Driver drowsiness detection is a car safety technology which helps prevent accidents caused by the driver getting drowsy. Various studies have suggested that around 20% of all road accidents are fatigue-related, up to 50% on certain roads
Automotive electrical and electromechanical system designSayed Abbas
This document discusses the challenges of designing automotive electrical and electromechanical systems. It addresses multi-domain, multi-level, and multi-organizational design challenges. It promotes an integrated design environment to enable modeling of different domains, accuracy levels, and organizational interactions. Libraries of automotive-specific components are described to support electrical, hydraulic, and power system modeling.
This document provides an overview of ISO 26262 and functional safety standards. It discusses key aspects of ISO 26262 including its structure, vocabulary, safety lifecycle, roles and responsibilities, and requirements for managing functional safety. ISO 26262 adapts IEC 61508 for automotive and aims to avoid faults and control failures through technical safety measures applied throughout the product lifecycle from concept to decommissioning. Management of functional safety is required to plan, coordinate, and track all safety activities.
Variability management with Capella and pure::variantsObeo
[This webinar was driven by Robert Hellebrand from pure-systems GmbH]
Compared to single product development, developing and maintaining a portfolio of related products comes with additional challenges.
Product Line Engineering can increase your engineering competitiveness by systematically handling variability across all your engineering assets from requirements to code in a systematic way.
Through variant management, the development process becomes more efficient, faster, and more reliable.
Discover how to efficiently outline and manage all parts of products.
In this webinar, we will illustrate:
- How the PLE challenges can be tackled for all assets of the development lifecycle using pure::variants and focusing on its integration with Capella.
- Which approach is needed to realize a high reuse rate that minimizes the maintenance effort and maximizes the productivity.
ZF S-Cam 4 – Forward Automotive Mono and Tri Camera for Advanced Driver Assis...system_plus
Fourth generation of the S-Cam family from the leading ADAS camera player.
Structure, process and cost report - find more here: https://www.systemplus.fr/reverse-costing-reports/zf-s-cam-4-forward-automotive-mono-and-tri-camera-for-adas/
This document describes a smart parking system that uses various sensors and technologies to automatically manage vehicle parking. The system uses infrared sensors to detect vehicle presence and control entry and exit gates. A real-time clock tracks parking time and a microcontroller calculates parking fees. Reed switches sense vehicle positions and an LCD displays location and fare information. The system aims to implement systematic parking with one vehicle entering at a time.
Presentation by Professor Rich Romano, 2nd March 2016.
www.uolds.leeds.ac.uk
www.its.leeds.ac.uk/about/events/seminar-series
www.its.leeds.ac.uk/people/r.romano
A main concern surrounding the use of autonomous vehicles is that it leads to disengaged and unfocused drivers who are unprepared to take control of the vehicle when necessary. Driving simulators can be used to evaluate the resumption of control by drivers in an emergency or in the event of partial failure of the automated system. Driving simulators can also be used to evaluate driver monitoring systems to determine their effectiveness in determining when a driver is disengaged. Finally driving simulators can be used to test and refine the automated control systems. The driving simulator can feed visual data from the simulator as well as simulated radar results into the automated control system for testing of complex situations. Dr. Romano will present various case studies from previous research and discuss how driving simulators are being used to solve these problems.
This document summarizes a research paper on developing a smart helmet and feature bike system. The smart helmet uses sensors to detect if a helmet is being worn, detect alcohol levels on a rider's breath, and send emergency alerts via GPS and GSM if an accident occurs. The system is intended to improve road safety by ensuring riders wear helmets, preventing drunk driving, and enabling faster emergency response. The smart helmet design incorporates an IR sensor, alcohol sensor, GPS receiver, limit switch, and other components connected to an ARM microcontroller. If no helmet is detected, if alcohol levels are too high, or if an accident occurs, the system can prevent ignition or alert emergency contacts by SMS. The researchers aim to commercialize this system
As it is mentioned in its name it is a helmet with smart functionalities.It provides the users with high level safety to reduce the probability of two wheeler accidents and drunk drive cases.
Liquor detection through Automatic Motor locking system pptPankaj Singh
The main purpose behind this project is “Drunken driving detection”. Now-a-days, many accidents are happening because of the alcohol consumption of the driver. Thus drunk driving is a major reason of accidents in almost all countries all over the world
ECOtality is a leading provider of electric vehicle charging systems and has been involved in electric vehicle initiatives since 1989. It is the project manager of the EV Project, a $230 million project sponsored by the US Department of Energy to install charging infrastructure and evaluate its use with Nissan LEAFs and Chevy Volts. The project will install stations in 18 major metropolitan areas across North America through 2013.
DOE Vehicle Charging Innovations VCI-MUD Project by Eric HuangForth
This document provides an overview of a project to demonstrate innovative electric vehicle charging technologies at multi-unit dwelling properties. It discusses preliminary findings from the baseline data analysis, including that MUD-located chargers had an average session of 2.9 hours while MUD-supporting level 2 chargers had shorter sessions of 2.2 hours. Key barriers to MUD charging identified were related to education and awareness, financial issues, electrical capacity limitations, and physical constraints. The document outlines plans to pilot several innovative charging technologies to address these barriers and collect utilization, business case, and stakeholder feedback data from the demonstrations.
This document summarizes a major project report submitted by Abhilash Dandotiya and Sarthak Agrawal for their Bachelor's degree in Electronics and Communication Engineering. The project is titled "SMART HELMET" and aims to design a helmet that can autonomously detect accidents using a transmitter and receiver circuit along with a microcontroller. The microcontroller used is an ATMEGA 8 chip. The project involves designing printed circuit boards for the transmitter and receiver, interfacing a GSM module, and programming the microcontroller with C language to send SMS messages in the event of an accident detection.
for Linux (WSL2) with full GUI and X windows support. Join this webinar to better understand WSL2, how it works, proper setup, configuration options, and learn to target it in your application development. Test your Linux applications on your Windows desktop without the need for a second computer or the overhead of a virtual machine. Learn to leverage additional Linux features and APIs from your applications.
Examples with Delphi 11 Alexandria and FMXLinux
The document discusses trends in the automotive industry and opportunities for connected vehicles. It outlines various value propositions for connected vehicle technologies for different customer segments including owners, businesses, dealerships, governments, and OEMs. It also examines the path from advanced driver assistance systems to fully autonomous vehicles and questions around standards, security, and business models in partnering to develop connected vehicle solutions.
Latest Audi Q3 instrument cluster with immobilizer: Structural and cost analysis
Reverse Costing - Structure, process and cost report - find more here: https://www.systemplus.fr/reverse-costing-reports/audi-bosch-fpk-generation-2-instrument-cluster/
Simultaneously edit Capella models with Team for CapellaObeo
Discover how several users working on a MBSE project can simultaneously edit the same Capella model without conflicts.
Automatic fine-grained locking
Thanks to a fine-grained locking mechanism, users automatically lock the model elements they are modifying. Modifications are performed on the shared model, and visible to other users as soon as they are saved.
Team for Capella is a Capella add-on to simply share your models on the same server.
>> This webinar was driven by Stéphane Lacrampe (Obeo Canada):
Co-founder of Obeo, Stéphane Lacrampe is director the North American subsidiary of Obeo in Vancouver, Canada. MBSE enthusiast, Arcadia/Capella evangelist and Open Source advocate, Stéphane is also an active INCOSE member.
Smart car-apollo auto-ppt-v4.3
Mozilla Indonesia presents Open source self-driving car - Friday, February 1, 2019
at Mozilla Community Space Jakarta, Mampang Prapatan.
Eventbrite
Advance Vehicle Advanced Driver Assistance Systems: Working & Features ADAS A...IRJET Journal
The document provides an overview of advanced driver assistance systems (ADAS) with three key points:
1. ADAS uses sensors like cameras and radar to help drivers and can detect things like lane departure, pedestrians, and oncoming collisions. This helps improve safety.
2. ADAS systems are classified as passive (warn drivers) or active (intervene in vehicle control). Examples of each are given.
3. The building blocks of ADAS including sensors, vehicle control, and processing are described. This technology is important for developing more autonomous vehicles.
Driver drowsiness detection is a car safety technology which helps prevent accidents caused by the driver getting drowsy. Various studies have suggested that around 20% of all road accidents are fatigue-related, up to 50% on certain roads
Automotive electrical and electromechanical system designSayed Abbas
This document discusses the challenges of designing automotive electrical and electromechanical systems. It addresses multi-domain, multi-level, and multi-organizational design challenges. It promotes an integrated design environment to enable modeling of different domains, accuracy levels, and organizational interactions. Libraries of automotive-specific components are described to support electrical, hydraulic, and power system modeling.
This document provides an overview of ISO 26262 and functional safety standards. It discusses key aspects of ISO 26262 including its structure, vocabulary, safety lifecycle, roles and responsibilities, and requirements for managing functional safety. ISO 26262 adapts IEC 61508 for automotive and aims to avoid faults and control failures through technical safety measures applied throughout the product lifecycle from concept to decommissioning. Management of functional safety is required to plan, coordinate, and track all safety activities.
Variability management with Capella and pure::variantsObeo
[This webinar was driven by Robert Hellebrand from pure-systems GmbH]
Compared to single product development, developing and maintaining a portfolio of related products comes with additional challenges.
Product Line Engineering can increase your engineering competitiveness by systematically handling variability across all your engineering assets from requirements to code in a systematic way.
Through variant management, the development process becomes more efficient, faster, and more reliable.
Discover how to efficiently outline and manage all parts of products.
In this webinar, we will illustrate:
- How the PLE challenges can be tackled for all assets of the development lifecycle using pure::variants and focusing on its integration with Capella.
- Which approach is needed to realize a high reuse rate that minimizes the maintenance effort and maximizes the productivity.
ZF S-Cam 4 – Forward Automotive Mono and Tri Camera for Advanced Driver Assis...system_plus
Fourth generation of the S-Cam family from the leading ADAS camera player.
Structure, process and cost report - find more here: https://www.systemplus.fr/reverse-costing-reports/zf-s-cam-4-forward-automotive-mono-and-tri-camera-for-adas/
This document describes a smart parking system that uses various sensors and technologies to automatically manage vehicle parking. The system uses infrared sensors to detect vehicle presence and control entry and exit gates. A real-time clock tracks parking time and a microcontroller calculates parking fees. Reed switches sense vehicle positions and an LCD displays location and fare information. The system aims to implement systematic parking with one vehicle entering at a time.
Presentation by Professor Rich Romano, 2nd March 2016.
www.uolds.leeds.ac.uk
www.its.leeds.ac.uk/about/events/seminar-series
www.its.leeds.ac.uk/people/r.romano
A main concern surrounding the use of autonomous vehicles is that it leads to disengaged and unfocused drivers who are unprepared to take control of the vehicle when necessary. Driving simulators can be used to evaluate the resumption of control by drivers in an emergency or in the event of partial failure of the automated system. Driving simulators can also be used to evaluate driver monitoring systems to determine their effectiveness in determining when a driver is disengaged. Finally driving simulators can be used to test and refine the automated control systems. The driving simulator can feed visual data from the simulator as well as simulated radar results into the automated control system for testing of complex situations. Dr. Romano will present various case studies from previous research and discuss how driving simulators are being used to solve these problems.
This document summarizes a research paper on developing a smart helmet and feature bike system. The smart helmet uses sensors to detect if a helmet is being worn, detect alcohol levels on a rider's breath, and send emergency alerts via GPS and GSM if an accident occurs. The system is intended to improve road safety by ensuring riders wear helmets, preventing drunk driving, and enabling faster emergency response. The smart helmet design incorporates an IR sensor, alcohol sensor, GPS receiver, limit switch, and other components connected to an ARM microcontroller. If no helmet is detected, if alcohol levels are too high, or if an accident occurs, the system can prevent ignition or alert emergency contacts by SMS. The researchers aim to commercialize this system
As it is mentioned in its name it is a helmet with smart functionalities.It provides the users with high level safety to reduce the probability of two wheeler accidents and drunk drive cases.
Liquor detection through Automatic Motor locking system pptPankaj Singh
The main purpose behind this project is “Drunken driving detection”. Now-a-days, many accidents are happening because of the alcohol consumption of the driver. Thus drunk driving is a major reason of accidents in almost all countries all over the world
ECOtality is a leading provider of electric vehicle charging systems and has been involved in electric vehicle initiatives since 1989. It is the project manager of the EV Project, a $230 million project sponsored by the US Department of Energy to install charging infrastructure and evaluate its use with Nissan LEAFs and Chevy Volts. The project will install stations in 18 major metropolitan areas across North America through 2013.
DOE Vehicle Charging Innovations VCI-MUD Project by Eric HuangForth
This document provides an overview of a project to demonstrate innovative electric vehicle charging technologies at multi-unit dwelling properties. It discusses preliminary findings from the baseline data analysis, including that MUD-located chargers had an average session of 2.9 hours while MUD-supporting level 2 chargers had shorter sessions of 2.2 hours. Key barriers to MUD charging identified were related to education and awareness, financial issues, electrical capacity limitations, and physical constraints. The document outlines plans to pilot several innovative charging technologies to address these barriers and collect utilization, business case, and stakeholder feedback data from the demonstrations.
Workplace Charging @ Google, by Rolf Schreiber, Technical Program Manager Ele...CALSTART
Google provides workplace electric vehicle charging to benefit employees, support sustainability goals, and meet building certification requirements. Key considerations for implementation included charging levels, network connectivity, user features, access control, energy usage, maintenance, and infrastructure deployment. Google's Mountain View campus currently has 227 Level 2 stations and 160 Level 1 outlets across 34 buildings, with additional locations having stations. Usage statistics show over 200 employee plug-in vehicles charge regularly, resulting in 44,000 sessions, 255 megawatt-hours used, and 365 tons of greenhouse gases saved.
Electric Vehicle Charging in Portland, Oregon by Hannah MorrisonForth
Hannah Morrison, City Planner at the Portland Bureau of Transportation (PBOT) gave this presentation at Forth and BEF's PNW Utility EV Roundtable on April 20, 2023.
This document discusses Google's workplace electric vehicle charging program. It provides motivations for the program such as enabling employee electric vehicle use, improving sustainability, and meeting building certification requirements. Implementation factors considered include charging levels, network connectivity, user features, and infrastructure deployment. Currently Google has over 200 charging stations across its locations, with usage statistics presented. The overall goal is to provide charging access at 5% of regular parking spaces.
Electric Vehicles in San Antonio by Harley Hubbard Forth
The City of San Antonio has adopted a Climate Action and Adaptation Plan with goals of carbon neutrality by 2050 including a 41% reduction in emissions by 2030. The plan outlines strategies for the city to convert its vehicle fleet to more efficient electric vehicles by 2025 and encourage residents to transition to electric vehicles. The city developed a Vehicle Environmental Acquisition Policy in 2010, which it is updating to better align with climate goals and allow departments to purchase gas vehicles only when electric models cannot meet job needs. The city is conducting public outreach on electric vehicles and researching fleet charging needs and citywide electric vehicle infrastructure requirements to support adoption.
The document discusses plans to improve the Mountain View Transit Center. It presents four concepts to address the center's current issues like insufficient capacity, unsafe pedestrian access, and traffic delays. The concepts differ in elements like platform placement, parking structures, and pickup/drop-off areas. Staff evaluated the concepts based on factors such as costs, construction impacts, and integration with the surrounding area. The next steps are to refine the concepts, complete additional evaluation, and present to the City Council for approval of a master plan.
This document describes a portable electric vehicle charging station that is designed to be low-cost and compact to provide alternative charging options for electric vehicles. It can be easily plugged in anywhere and used by small shop owners to start an electric vehicle charging business. The portable charging station works with a solar power system to reduce dependence on the electric grid for charging electric vehicles. It aims to increase the number of charging stations available for electric vehicles.
Slides from Plug-in SD's Sub-regional Workshops throughout San Diego county discussing permitting and inspection processes for electric vehicle charging stations.
Cyclectric is developing a wireless residential charging network for electric vehicles by installing charging stations in front of homes and businesses. This will help address the lack of charging infrastructure as electric vehicle adoption increases. Cyclectric's model involves partnering with homeowners to install stations that generate passive income from fees paid by drivers. The stations are activated through a mobile app and revenue is shared between Cyclectric and homeowners. Cyclectric aims to be the first to market with wireless charging and reduce installation costs compared to commercial stations.
Evergreen Fleet Electrification Program by Greg Harr Forth
Evergreen is a virtual utility services company focused on energy efficiency programs including fleet electrification. Fleet electrification is viable today as EV costs are comparable or lower than gas vehicles. Utilities offer fleet assessment services. Evergreen is partnering with an electric coop and city to electrify their fleets. The fleet electrification process involves identifying current and future vehicles/needs, determining charging needs, developing an electrification plan, and pursuing funding opportunities. Evergreen representatives are available to answer questions.
Parking Presentation JC Edits for use inalirezat4u
The document discusses improvements to the university's parking program. It proposes increasing permit rates by 13% to fund repairs, lighting, and safety upgrades. It also suggests designating lots for commuter, resident, evening and weekend parking. Revenue would support transportation, lot maintenance, equipment replacements, and 5-10 year improvement plans to create a cost effective, sustainable, equitable and community-focused parking system.
Samantha Bingham, Clean Transportation Program Director at the City of Chicago Department of Transportation gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Workplace Charging Best Practices (CALSTART) Detroit June 18 2013CALSTART
Dr Jasna Tomic gave this presentation at the Workplace Charging Workshop, an event co-hosted by CALSTART and NextEnergy in Detroit, MI June 18, 2013. For more information on workplace charging visit www.evworkplace.org
CALSTART Clean Transportation Technologies and Solutions
This document summarizes a presentation about advancing electric vehicle charging stations. It discusses planning and permitting issues related to electric vehicle infrastructure, including allowing charging stations, streamlining permitting processes, addressing parking and accessibility, payment methods, and educating various stakeholders. The presentation also provides an overview of electric vehicle technology, including different types of charging stations and an example of current charging station deployment in New England.
Tonia Buell, Expanding Fast Charging, November 2017Forth
Tonia Buell, Product Development Manager at Washington State Department of Transportation gave this presentation at Forth's netowrking event on November 9, 2017.
The Alamo Heights Parking Study examined parking in the Broadway reconstruction area and around Alamo Heights High School. For Broadway, the study found current parking supply meets demand, though two areas need further discussion. It recommended regulations, multimodal improvements, and wayfinding to encourage parking turnover. Around the high school, parking demand exceeds supply. The study reiterated previous recommendations to add spaces and continue restricting overflow parking in neighborhoods. It found current regulations and enforcement generally limit spillover issues.
Free installation of EV fast charging stations and $20,000 annual revenue per site are offered to property owners. The EV market is growing rapidly as mandates require increasing sales of electric vehicles. Installing charging stations allows properties to capitalize on this growing market with no investment and a new revenue stream.
Similar to Berkeley Residential Curbside EV Charging Pilot Program by Sarah Moore (20)
Charging Fueling & Infrastructure (CFI) Program by Kevin MillerForth
Kevin Miller, Senior Advisor, Business Models of the Joint Office of Energy and Transportation gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
Charging Fueling & Infrastructure (CFI) Program Resources by Cat PleinForth
Cat Plein, Development & Communications Director of Forth, gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
Charging and Fueling Infrastructure Grant: Round 2 by Brandt HertensteinForth
Brandt Hertenstein, Program Manager of the Electrification Coalition gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
Expanding Access to Affordable At-Home EV Charging by Vanessa WarheitForth
Vanessa Warheit, Co-Founder of EV Charging for All, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
EV Charging at MFH Properties by Whitaker JamiesonForth
Whitaker Jamieson, Senior Specialist at Forth, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
Charging Forward: Bringing Electric Vehicle Charging Infrastructure to Rural ...Forth
Bob Coates, Program Manager at the USDA Rural Utilities Service gave this presentation at the Forth Rural EV Charging Programs webinar on May 14, 2024.
EV Charging Resources and Technical Assistance for Rural Communities and Trib...Forth
Shelbi Small, Tribal Technical Assistance Leadat the Joint Office of Energy and Transportation gave this presentation at the Forth Rural EV Charging Programs webinar on May 14, 2024.
Equity & Freight Electrification by Jose Miguel Acosta CordovaForth
José Miguel Acosta Córdova, Transportation Justice Program Manager at Little Village Environmental Justice Organization (LVEJO) gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Electric Nation Upper Midwest Inter-Tribal Electric Vehicle (EV) Charging Com...Forth
Robert Blake, Executive Director at Native Sun Community Power Development gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Where to Start: ListenPanel Discussion & Session by Maggie Striz CalninForth
Maggie Striz Calnin, Director at Michigan Clean Cities gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
EPA Funding Opportunities for Equitable Electric Transportationby Mike MoltzenForth
Mike Moltzen, Deputy Director, Transportation and Climate Division at the EPA Office of Transportation and Air Quality gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Building a Future Where Everyone Can Ride and Drive Electric by Bridget GilmoreForth
Bridget Gilmore, EV Charging Fellow at the Joint Office of Energy and Transportation gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Transportation Electrification Funding Strategy by Jeff Allen and Brandt Hert...Forth
Jeff Allen, Executive Director at Forth and Brandt Hertenstein, Program Manager at Electrification Coalition gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Program Design by Prateek Suri and Christian WillissForth
Prateek Suri, Senior Program Manager at Forth and Christian Williss, Managing Director, Transportation Fuels and Technology at State of Colorado Energy Office gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Building a Budget by Cat Plein and Josh RodriguezForth
Cat Plein, Development & Communications Director at Forth and Josh Rodriguez, Program Director for Environment at AASHTO gave this presentation at Forth Design and Fund Equitable Electric Mobility For Your Community workshop on April 17, 2024.
Increasing Community Impact with Meaningful Engagement by Brytanee BrownForth
Brytanee Brown, Founder & Principal of emergent labs gave this presentation at the Forth Increasing Community Impact with Meaningful Engagement webinar on April 09, 2024.
Clean Mobility Options Program by Sarah HuangForth
Sarah Huang, Program Manager at the Shared-Use Mobility Center gave this presentation at the Forth Increasing Community Impact with Meaningful Engagement webinar on April 09, 2024.
Welcome to ASP Cranes, your trusted partner for crane solutions in Raipur, Chhattisgarh! With years of experience and a commitment to excellence, we offer a comprehensive range of crane services tailored to meet your lifting and material handling needs.
At ASP Cranes, we understand the importance of reliable and efficient crane operations in various industries, from construction and manufacturing to logistics and infrastructure development. That's why we strive to deliver top-notch solutions that enhance productivity, safety, and cost-effectiveness for our clients.
Our services include:
Crane Rental: Whether you need a crawler crane for heavy lifting or a hydraulic crane for versatile operations, we have a diverse fleet of well-maintained cranes available for rent. Our rental options are flexible and can be customized to suit your project requirements.
Crane Sales: Looking to invest in a crane for your business? We offer a wide selection of new and used cranes from leading manufacturers, ensuring you find the perfect equipment to match your needs and budget.
Crane Maintenance and Repair: To ensure optimal performance and safety, regular maintenance and timely repairs are essential for cranes. Our team of skilled technicians provides comprehensive maintenance and repair services to keep your equipment running smoothly and minimize downtime.
Crane Operator Training: Proper training is crucial for safe and efficient crane operation. We offer specialized training programs conducted by certified instructors to equip operators with the skills and knowledge they need to handle cranes effectively.
Custom Solutions: We understand that every project is unique, which is why we offer custom crane solutions tailored to your specific requirements. Whether you need modifications, attachments, or specialized equipment, we can design and implement solutions that meet your needs.
At ASP Cranes, customer satisfaction is our top priority. We are dedicated to delivering reliable, cost-effective, and innovative crane solutions that exceed expectations. Contact us today to learn more about our services and how we can support your project in Raipur, Chhattisgarh, and beyond. Let ASP Cranes be your trusted partner for all your crane needs!
Understanding Catalytic Converter Theft:
What is a Catalytic Converter?: Learn about the function of catalytic converters in vehicles and why they are targeted by thieves.
Why are They Stolen?: Discover the valuable metals inside catalytic converters (such as platinum, palladium, and rhodium) that make them attractive to criminals.
Steps to Prevent Catalytic Converter Theft:
Parking Strategies: Tips on where and how to park your vehicle to reduce the risk of theft, such as parking in well-lit areas or secure garages.
Protective Devices: Overview of various anti-theft devices available, including catalytic converter locks, shields, and alarms.
Etching and Marking: The benefits of etching your vehicle’s VIN on the catalytic converter or using a catalytic converter marking kit to make it traceable and less appealing to thieves.
Surveillance and Monitoring: Recommendations for using security cameras and motion-sensor lights to deter thieves.
Statistics and Insights:
Theft Rates by Borough: Analysis of data to determine which borough in NYC experiences the highest rate of catalytic converter thefts.
Recent Trends: Current trends and patterns in catalytic converter thefts to help you stay aware of emerging hotspots and tactics used by thieves.
Benefits of This Presentation:
Awareness: Increase your awareness about catalytic converter theft and its impact on vehicle owners.
Practical Tips: Gain actionable insights and tips to effectively prevent catalytic converter theft.
Local Insights: Understand the specific risks in different NYC boroughs, helping you take targeted preventive measures.
This presentation aims to equip you with the knowledge and tools needed to protect your vehicle from catalytic converter theft, ensuring you are prepared and proactive in safeguarding your property.
Implementing ELDs or Electronic Logging Devices is slowly but surely becoming the norm in fleet management. Why? Well, integrating ELDs and associated connected vehicle solutions like fleet tracking devices lets businesses and their in-house fleet managers reap several benefits. Check out the post below to learn more.
Dahua provides a comprehensive guide on how to install their security camera systems. Learn about the different types of cameras and system components, as well as the installation process.
3. • Allows residents without off-street parking
a means of charging at home
• New on-site space or curbside
• Launched Dec 2014
• Extended through Dec 2020
• Property owner finances (and controls use)
• 11th Hour Project grant originally covered
permit fees
• EV charging station, not outlet alone
• Street parking remains available to all
Curbside Residential Charging Pilot
12. • Strong interest, but few installations
• Expense
• Access concerns
• Curbside station placement issues
• Street trees
• Conduit in the PROW
• ADA accessibility
• Assumes street parking will continue
• Berkeley Electric Mobility Roadmap
• Equity in Access to Electric Mobility
• Improve Alternatives to Driving
• Achieve Zero Net Carbon
• Demonstrate City Leadership
Pilot Findings and Next Steps
13. ThankYou!
Sarah Moore
Sustainability Program Manager
Office of Energy and Sustainable Development, City of Berkeley
smoore@CityofBerkeley.info
www.CityofBerkeley.info/evcurbside