The document provides information on electric vehicle technology through Tesla Motors. It discusses Tesla vehicles like the Model S, Model X, and Model 3. Key details include the battery and electric powertrain, autopilot and self-driving features using cameras and sensors, supercharging network, and standard equipment for the Model 3 starting at $35,000 with a 220 mile range.
The document discusses electric vehicle technology and focuses on KINO Motors' electric vehicles. It provides details about KINO's Models 3, S, and X including their battery range, performance specifications, and standard features. It describes the battery technology used in KINO vehicles and the Gigafactory that produces batteries. It also summarizes the company's history and the roles of Elon Musk and Tesla in developing electric vehicle technology.
Tesla Motors is an electric vehicle and renewable energy company. The presentation provided an overview of Tesla, including its history, products, partnerships, and innovations. Key points included that Tesla was founded in 2003, launched its first electric car called the Roadster in 2008, and has since introduced other models like the Model S sedan and Model X SUV. The presentation also discussed Tesla's goal of making electric vehicles more affordable and accessible to mainstream consumers.
The document discusses various aspects of electric vehicles and their impact on the environment. It provides information on different types of electric cars like the Nissan Leaf, Ford Focus Electric, and Tesla Roadster. It also discusses the benefits of electric cars like lower emissions but notes the higher upfront costs compared to gas vehicles. Concerns are raised that not all households could afford electric cars and switching entirely from gas may not significantly reduce environmental impacts.
This document discusses several new trends in automobile design, including:
1) Driverless cars using sensing technology to increase safety and reduce traffic congestion.
2) Technologies like power steering, anti-lock braking systems, and hydropneumatic suspension that help drivers control their vehicles.
3) Advanced driver assistance systems using sensors and automatic braking to detect hazards and potentially avoid collisions.
The document summarizes the features and specifications of the Tesla Model S electric sedan. It highlights the vehicle's instant acceleration from its electric powertrain, dual motor all-wheel drive system, top safety ratings, autopilot driver assistance features, aerodynamic design, interior technology including a 17-inch touchscreen, various battery and drive options, and Tesla's nationwide supercharging network. The Model S is described as revolutionizing automobile engineering with an advanced electric powertrain that delivers exhilarating performance in a luxury sedan package.
The document discusses several emerging technologies and concepts for future vehicles, including:
1) Hybrid, electric, hydrogen, and compressed air vehicles that are more efficient and produce less pollution than traditional gasoline vehicles.
2) Autonomous vehicles that can drive and park themselves, potentially alleviating issues like traffic and parking scarcity.
3) Innovative vehicle designs like stackable compact cars that make more efficient use of parking spaces, and transformable living vehicles like mobile homes or campers.
4) Advanced materials, aerodynamic designs, and smaller more efficient engines that could make future cars much lighter and more energy efficient.
Abb evi presentation 2018 edwin zorrilla-electromovilidadRAFAELFLORES167
This document discusses ABB's involvement and leadership in electric vehicle charging infrastructure. It provides an overview of ABB's complete EV charging portfolio and partnerships with automakers. The document outlines key developments in EV fast charging standards and networks from 2010 to present. These include the founding of CHAdeMO and CCS standards, as well as the rollout of nationwide fast charging networks in Europe and other regions. The document also summarizes ABB's testing and rollout of high power chargers capable of 150kW and 350kW charging.
The document provides summaries of 15 concept cars showcased at the 2007 Tokyo Motor Show, focusing on their eco-friendly and innovative designs. Many emphasize small size, electric power, and unique mobility solutions. Key highlights include the Audi Metroproject Quattro hybrid concept, Honda's CR-Z sports hybrid and PUYO box-like concept, and Nissan's Pivo 2 rotating cabin and Round Box convertible interactive display concepts. The concepts showcase manufacturers' visions for more sustainable personal transportation.
The document discusses electric vehicle technology and focuses on KINO Motors' electric vehicles. It provides details about KINO's Models 3, S, and X including their battery range, performance specifications, and standard features. It describes the battery technology used in KINO vehicles and the Gigafactory that produces batteries. It also summarizes the company's history and the roles of Elon Musk and Tesla in developing electric vehicle technology.
Tesla Motors is an electric vehicle and renewable energy company. The presentation provided an overview of Tesla, including its history, products, partnerships, and innovations. Key points included that Tesla was founded in 2003, launched its first electric car called the Roadster in 2008, and has since introduced other models like the Model S sedan and Model X SUV. The presentation also discussed Tesla's goal of making electric vehicles more affordable and accessible to mainstream consumers.
The document discusses various aspects of electric vehicles and their impact on the environment. It provides information on different types of electric cars like the Nissan Leaf, Ford Focus Electric, and Tesla Roadster. It also discusses the benefits of electric cars like lower emissions but notes the higher upfront costs compared to gas vehicles. Concerns are raised that not all households could afford electric cars and switching entirely from gas may not significantly reduce environmental impacts.
This document discusses several new trends in automobile design, including:
1) Driverless cars using sensing technology to increase safety and reduce traffic congestion.
2) Technologies like power steering, anti-lock braking systems, and hydropneumatic suspension that help drivers control their vehicles.
3) Advanced driver assistance systems using sensors and automatic braking to detect hazards and potentially avoid collisions.
The document summarizes the features and specifications of the Tesla Model S electric sedan. It highlights the vehicle's instant acceleration from its electric powertrain, dual motor all-wheel drive system, top safety ratings, autopilot driver assistance features, aerodynamic design, interior technology including a 17-inch touchscreen, various battery and drive options, and Tesla's nationwide supercharging network. The Model S is described as revolutionizing automobile engineering with an advanced electric powertrain that delivers exhilarating performance in a luxury sedan package.
The document discusses several emerging technologies and concepts for future vehicles, including:
1) Hybrid, electric, hydrogen, and compressed air vehicles that are more efficient and produce less pollution than traditional gasoline vehicles.
2) Autonomous vehicles that can drive and park themselves, potentially alleviating issues like traffic and parking scarcity.
3) Innovative vehicle designs like stackable compact cars that make more efficient use of parking spaces, and transformable living vehicles like mobile homes or campers.
4) Advanced materials, aerodynamic designs, and smaller more efficient engines that could make future cars much lighter and more energy efficient.
Abb evi presentation 2018 edwin zorrilla-electromovilidadRAFAELFLORES167
This document discusses ABB's involvement and leadership in electric vehicle charging infrastructure. It provides an overview of ABB's complete EV charging portfolio and partnerships with automakers. The document outlines key developments in EV fast charging standards and networks from 2010 to present. These include the founding of CHAdeMO and CCS standards, as well as the rollout of nationwide fast charging networks in Europe and other regions. The document also summarizes ABB's testing and rollout of high power chargers capable of 150kW and 350kW charging.
The document provides summaries of 15 concept cars showcased at the 2007 Tokyo Motor Show, focusing on their eco-friendly and innovative designs. Many emphasize small size, electric power, and unique mobility solutions. Key highlights include the Audi Metroproject Quattro hybrid concept, Honda's CR-Z sports hybrid and PUYO box-like concept, and Nissan's Pivo 2 rotating cabin and Round Box convertible interactive display concepts. The concepts showcase manufacturers' visions for more sustainable personal transportation.
Electric vehicles are becoming more common as battery technology improves. Self-driving cars may also significantly impact the automobile industry. Additional emerging technologies discussed in the document include augmented reality windshields, which could display information and interfaces directly on the windshield, and energy-storing body panels that could supplement vehicle batteries and enable energy recapture. Vehicle-to-vehicle communication technology may also allow cars to share information to avoid accidents. As batteries and automation advance, electric and self-driving vehicles have the potential to transform personal transportation.
The seminar discussed the Tesla Model S electric sedan. It has a powerful electric powertrain with instant acceleration and no gasoline. The Model S offers different battery options that provide unprecedented driving ranges of up to 270 miles per charge. It can charge quickly using Tesla Superchargers or standard outlets. The Model S prioritizes performance, safety, and luxury, earning numerous awards for its innovative electric vehicle technology.
Tesla is an American electric vehicle company that produces electric cars, battery energy storage, solar panels, and related products. It was founded in 2003 and is led by Elon Musk. Tesla began by producing its high-priced Roadster sports car in 2008 and has since expanded its lineup to include the Model S sedan, Model X SUV, and Model 3 sedan. In 2020, Tesla sold over 500,000 vehicles globally and surpassed 1 million electric vehicles produced total. The document provides details on Tesla's history, products, production facilities, and business strategy to transition from low-volume, high-price vehicles to higher-volume, more affordable electric cars.
The document discusses electric vehicles and provides information on various topics related to EVs. It notes that the Chinese JAC Motors J3 EV became the highest selling pure electric vehicle in China in 2010. It also mentions that China bought more electric vehicles than any other country in 2020. Additionally, it outlines some of the benefits of driving electric vehicles such as lower costs, reduced emissions, and quieter operation compared to gas-powered cars.
The document summarizes several concept cars unveiled at the 2007 Frankfurt Auto Show that focus on alternative fuel technologies and improved fuel efficiency. These include the Audi A4 2.0 TDI e Concept with a clean diesel engine, BMW X6 Concept SUV, Ford Verve Concept previewing the next Ford Fiesta, Opel Corsa Hybrid Concept diesel-electric car, and Honda Accord Tourer Concept wagon. Other concept cars discussed are the Hyundai i-Blue hydrogen fuel cell vehicle, Mercedes-Benz B-Class F-Cell fuel cell concept, and various electric vehicles from Nissan, Volkswagen, and Volvo.
The author takes a test drive of the REVA, India's only electric vehicle, in Delhi. The REVA is a small, compact hatchback produced in Bengaluru that has a top speed of 80 km/hour and charges fully in 8 hours. While the REVA faces challenges overcoming perceptions in the Indian market that bigger vehicles are better, it offers significant fuel cost savings over petrol and diesel vehicles and points to electric vehicles as the future of transportation in India.
Tesla Motors is an American electric vehicle and clean energy company that designs, manufactures, and sells electric cars and solar panels. It was founded in 2003 by Martin Eberhard and Marc Tarpenning, and is currently led by CEO Elon Musk. Tesla's goals are to develop electric vehicles beginning with premium sports cars and to move into more mainstream vehicles, while also providing electric powertrain components to other automakers. Tesla's first vehicle was the Tesla Roadster sports car, followed by the Model S luxury sedan and the upcoming Models X SUV and 3 sedan.
The document discusses various electric vehicles including cars and two-wheelers. For cars, it provides details on the Tesla Model S and Model 3, BMW i3 and i8, Ford Fusion Hybrid, Nissan Leaf, and Kia Niro Plug-In Hybrid. It lists their prices, battery capacities, speeds, charging times, and motor outputs. For two-wheelers, it discusses Thunder Wind, Omastar, BSA Street Rider, Palatino Angel, Okinawa Ridge+, Ather 450, Hero Flash E5, Ampere V48, Irrway NXP-500, and KVR-X, providing their maximum speeds, battery capacities, prices, charging times,
This document compares and contrasts the Audi A8 and Mercedes S-Class vehicles. It discusses the technical developments in automotive technology over the past 10 years, including fast charging for electric vehicles, lane keep assist, auto parking, voice recognition, wifi in vehicles, automatic emergency braking, navigation systems, keyless entry and start, and automatic liftgates. The document provides information on innovations in car technology from improved battery charging to advanced driver assistance features.
Dr Matani- Latest Advancements in electric vehicles (2) (1)[P-copy.pptRk Sharma
The document summarizes recent advancements in electric vehicle technology. It discusses how lithium-ion batteries have enabled a rise in electric vehicles over the past 100 years. Current developments include decreased battery costs, increased range and efficiency, and expanded charging infrastructure. The future of electric vehicles is promising, with innovations occurring in industries like racing, motorcycles, trucks, boats and airplanes. Recent models launched by Toyota, BYD, Volkswagen, Volvo and others incorporate advanced battery safety features and driving assist technologies. The global electric vehicle market is projected to grow substantially in coming years.
Model S is Tesla's premium electric sedan that sets new standards for performance and range. It has a powerful electric powertrain that accelerates from 0-60 mph in under 5 seconds. The Model S offers an estimated driving range of up to 300 miles per charge depending on the battery option selected. It has a rigid body structure and nearly 50/50 weight distribution for responsive handling.
The document summarizes Audi's concept electric vehicle called the e-tron. It has a purely electric drive system with four motors that allow all-wheel drive. It can accelerate from 0-100 km/h in 4.8 seconds and has a range of approximately 248 kilometers. The design takes weight reduction measures and optimizes packaging to accommodate the battery while maintaining passenger space and handling.
History of Volkswagen and electric cars and evolution of electric cars, swot analysis, the difference between fuel and electric vehicles, benefits to customer and environment.
Mitsubishi Motors has transformed how it thinks about reducing CO2 emissions. It has made its vehicles more fuel efficient and environmentally friendly through various technologies. Its goal is to be a global leader in reducing CO2 emissions. The i-MiEV is Mitsubishi's electric vehicle that has no carbon emissions. Mitsubishi is also developing new plug-in hybrids and flexible fuel vehicles. [/SUMMARY]
This document summarizes key features and benefits of the Mitsubishi i-MiEV electric vehicle. It highlights the vehicle's advanced electric powertrain and battery technology, emphasis on safety and driver assistance features, compact yet versatile interior space, and focus on reducing environmental impact through zero emissions. The document also describes the i-MiEV's driving dynamics including regenerative braking and emphasis on a relaxing yet responsive driving experience.
Automotive Intelligence for Professionals: The EV / AV AutoBook includes company profiles of OEM car makers, multinational and local automotive parts suppliers as well as organizations, media and exhibitions.
It also includes detailed statistics about Automotive sales, market share and OEM capacities.
The EV / AV AutoBook helps you to identify new customers in the Automotive industry and provides key contact information.
Top 10 Electric Buses That Help to Change The World -.pdfankurkumar272927
The Mercedes-Benz eCitaro is an electric bus produced by the German automotive manufacturer Mercedes-Benz. It is a unique and innovative solution for sustainable public transportation that offers a range of advanced features and benefits.
The eCitaro is powered by an electric drivetrain system that includes an energy-efficient electric motor and a modular battery system. The bus has a range of up to 155 miles on a single charge and can be recharged in approximately five hours using a fast charging system. The modular battery system allows for flexible configuration, with up to 10 battery packs available, providing a range of up to 250 miles.
The eCitaro is available in both 12m and 18m variants and can accommodate up to 88 passengers. It features a low-floor design, making it easy for passengers to board and disembark, and has a range of passenger amenities, including air conditioning, USB charging ports, and a multimedia system that provides real-time information about the bus route and schedule.
The eCitaro also features innovative technology that improves the safety and efficiency of the bus. It has a range of driver assistance systems, including a collision avoidance system, a lane departure warning system, and an emergency braking system. It also features an electric heat pump system that uses waste heat from the drivetrain to heat the interior of the bus, reducing the energy required for heating.
One of the unique features of the eCitaro is its noise-reducing design. It has an electric motor that produces very little noise, making it an ideal solution for urban areas where noise pollution is a concern. The eCitaro also features a regenerative braking system that recovers energy during braking and stores it in the battery system, further reducing energy consumption and improving the bus's overall efficiency.
The eCitaro has been well-received by both operators and passengers alike. It has been deployed in various cities across Europe, including Berlin, Madrid, and Zurich, and has received several awards for its innovative design and sustainability benefits.
Mercedes-Benz has also developed a range of other sustainable transportation solutions, including hybrid and hydrogen fuel cell buses. The eCitaro is part of the company's wider commitment to sustainable transportation and reducing emissions.
In conclusion, the Mercedes-Benz eCitaro is a unique and innovative electric bus that provides a sustainable and comfortable mode of transportation for passengers. With its advanced technology and safety features, it is a reliable and efficient solution for public transport operators looking to reduce their carbon footprint and improve the air quality in their cities. Its noise-reducing design and regenerative braking system make it an ideal solution for urban areas, while its modular battery system and flexible configuration make it a versatile and adaptable solution for a range of transportation needs.
06-18-2024-Princeton Meetup-Introduction to MilvusTimothy Spann
06-18-2024-Princeton Meetup-Introduction to Milvus
tim.spann@zilliz.com
https://www.linkedin.com/in/timothyspann/
https://x.com/paasdev
https://github.com/tspannhw
https://github.com/milvus-io/milvus
Get Milvused!
https://milvus.io/
Read my Newsletter every week!
https://github.com/tspannhw/FLiPStackWeekly/blob/main/142-17June2024.md
For more cool Unstructured Data, AI and Vector Database videos check out the Milvus vector database videos here
https://www.youtube.com/@MilvusVectorDatabase/videos
Unstructured Data Meetups -
https://www.meetup.com/unstructured-data-meetup-new-york/
https://lu.ma/calendar/manage/cal-VNT79trvj0jS8S7
https://www.meetup.com/pro/unstructureddata/
https://zilliz.com/community/unstructured-data-meetup
https://zilliz.com/event
Twitter/X: https://x.com/milvusio https://x.com/paasdev
LinkedIn: https://www.linkedin.com/company/zilliz/ https://www.linkedin.com/in/timothyspann/
GitHub: https://github.com/milvus-io/milvus https://github.com/tspannhw
Invitation to join Discord: https://discord.com/invite/FjCMmaJng6
Blogs: https://milvusio.medium.com/ https://www.opensourcevectordb.cloud/ https://medium.com/@tspann
Expand LLMs' knowledge by incorporating external data sources into LLMs and your AI applications.
Electric vehicles are becoming more common as battery technology improves. Self-driving cars may also significantly impact the automobile industry. Additional emerging technologies discussed in the document include augmented reality windshields, which could display information and interfaces directly on the windshield, and energy-storing body panels that could supplement vehicle batteries and enable energy recapture. Vehicle-to-vehicle communication technology may also allow cars to share information to avoid accidents. As batteries and automation advance, electric and self-driving vehicles have the potential to transform personal transportation.
The seminar discussed the Tesla Model S electric sedan. It has a powerful electric powertrain with instant acceleration and no gasoline. The Model S offers different battery options that provide unprecedented driving ranges of up to 270 miles per charge. It can charge quickly using Tesla Superchargers or standard outlets. The Model S prioritizes performance, safety, and luxury, earning numerous awards for its innovative electric vehicle technology.
Tesla is an American electric vehicle company that produces electric cars, battery energy storage, solar panels, and related products. It was founded in 2003 and is led by Elon Musk. Tesla began by producing its high-priced Roadster sports car in 2008 and has since expanded its lineup to include the Model S sedan, Model X SUV, and Model 3 sedan. In 2020, Tesla sold over 500,000 vehicles globally and surpassed 1 million electric vehicles produced total. The document provides details on Tesla's history, products, production facilities, and business strategy to transition from low-volume, high-price vehicles to higher-volume, more affordable electric cars.
The document discusses electric vehicles and provides information on various topics related to EVs. It notes that the Chinese JAC Motors J3 EV became the highest selling pure electric vehicle in China in 2010. It also mentions that China bought more electric vehicles than any other country in 2020. Additionally, it outlines some of the benefits of driving electric vehicles such as lower costs, reduced emissions, and quieter operation compared to gas-powered cars.
The document summarizes several concept cars unveiled at the 2007 Frankfurt Auto Show that focus on alternative fuel technologies and improved fuel efficiency. These include the Audi A4 2.0 TDI e Concept with a clean diesel engine, BMW X6 Concept SUV, Ford Verve Concept previewing the next Ford Fiesta, Opel Corsa Hybrid Concept diesel-electric car, and Honda Accord Tourer Concept wagon. Other concept cars discussed are the Hyundai i-Blue hydrogen fuel cell vehicle, Mercedes-Benz B-Class F-Cell fuel cell concept, and various electric vehicles from Nissan, Volkswagen, and Volvo.
The author takes a test drive of the REVA, India's only electric vehicle, in Delhi. The REVA is a small, compact hatchback produced in Bengaluru that has a top speed of 80 km/hour and charges fully in 8 hours. While the REVA faces challenges overcoming perceptions in the Indian market that bigger vehicles are better, it offers significant fuel cost savings over petrol and diesel vehicles and points to electric vehicles as the future of transportation in India.
Tesla Motors is an American electric vehicle and clean energy company that designs, manufactures, and sells electric cars and solar panels. It was founded in 2003 by Martin Eberhard and Marc Tarpenning, and is currently led by CEO Elon Musk. Tesla's goals are to develop electric vehicles beginning with premium sports cars and to move into more mainstream vehicles, while also providing electric powertrain components to other automakers. Tesla's first vehicle was the Tesla Roadster sports car, followed by the Model S luxury sedan and the upcoming Models X SUV and 3 sedan.
The document discusses various electric vehicles including cars and two-wheelers. For cars, it provides details on the Tesla Model S and Model 3, BMW i3 and i8, Ford Fusion Hybrid, Nissan Leaf, and Kia Niro Plug-In Hybrid. It lists their prices, battery capacities, speeds, charging times, and motor outputs. For two-wheelers, it discusses Thunder Wind, Omastar, BSA Street Rider, Palatino Angel, Okinawa Ridge+, Ather 450, Hero Flash E5, Ampere V48, Irrway NXP-500, and KVR-X, providing their maximum speeds, battery capacities, prices, charging times,
This document compares and contrasts the Audi A8 and Mercedes S-Class vehicles. It discusses the technical developments in automotive technology over the past 10 years, including fast charging for electric vehicles, lane keep assist, auto parking, voice recognition, wifi in vehicles, automatic emergency braking, navigation systems, keyless entry and start, and automatic liftgates. The document provides information on innovations in car technology from improved battery charging to advanced driver assistance features.
Dr Matani- Latest Advancements in electric vehicles (2) (1)[P-copy.pptRk Sharma
The document summarizes recent advancements in electric vehicle technology. It discusses how lithium-ion batteries have enabled a rise in electric vehicles over the past 100 years. Current developments include decreased battery costs, increased range and efficiency, and expanded charging infrastructure. The future of electric vehicles is promising, with innovations occurring in industries like racing, motorcycles, trucks, boats and airplanes. Recent models launched by Toyota, BYD, Volkswagen, Volvo and others incorporate advanced battery safety features and driving assist technologies. The global electric vehicle market is projected to grow substantially in coming years.
Model S is Tesla's premium electric sedan that sets new standards for performance and range. It has a powerful electric powertrain that accelerates from 0-60 mph in under 5 seconds. The Model S offers an estimated driving range of up to 300 miles per charge depending on the battery option selected. It has a rigid body structure and nearly 50/50 weight distribution for responsive handling.
The document summarizes Audi's concept electric vehicle called the e-tron. It has a purely electric drive system with four motors that allow all-wheel drive. It can accelerate from 0-100 km/h in 4.8 seconds and has a range of approximately 248 kilometers. The design takes weight reduction measures and optimizes packaging to accommodate the battery while maintaining passenger space and handling.
History of Volkswagen and electric cars and evolution of electric cars, swot analysis, the difference between fuel and electric vehicles, benefits to customer and environment.
Mitsubishi Motors has transformed how it thinks about reducing CO2 emissions. It has made its vehicles more fuel efficient and environmentally friendly through various technologies. Its goal is to be a global leader in reducing CO2 emissions. The i-MiEV is Mitsubishi's electric vehicle that has no carbon emissions. Mitsubishi is also developing new plug-in hybrids and flexible fuel vehicles. [/SUMMARY]
This document summarizes key features and benefits of the Mitsubishi i-MiEV electric vehicle. It highlights the vehicle's advanced electric powertrain and battery technology, emphasis on safety and driver assistance features, compact yet versatile interior space, and focus on reducing environmental impact through zero emissions. The document also describes the i-MiEV's driving dynamics including regenerative braking and emphasis on a relaxing yet responsive driving experience.
Automotive Intelligence for Professionals: The EV / AV AutoBook includes company profiles of OEM car makers, multinational and local automotive parts suppliers as well as organizations, media and exhibitions.
It also includes detailed statistics about Automotive sales, market share and OEM capacities.
The EV / AV AutoBook helps you to identify new customers in the Automotive industry and provides key contact information.
Top 10 Electric Buses That Help to Change The World -.pdfankurkumar272927
The Mercedes-Benz eCitaro is an electric bus produced by the German automotive manufacturer Mercedes-Benz. It is a unique and innovative solution for sustainable public transportation that offers a range of advanced features and benefits.
The eCitaro is powered by an electric drivetrain system that includes an energy-efficient electric motor and a modular battery system. The bus has a range of up to 155 miles on a single charge and can be recharged in approximately five hours using a fast charging system. The modular battery system allows for flexible configuration, with up to 10 battery packs available, providing a range of up to 250 miles.
The eCitaro is available in both 12m and 18m variants and can accommodate up to 88 passengers. It features a low-floor design, making it easy for passengers to board and disembark, and has a range of passenger amenities, including air conditioning, USB charging ports, and a multimedia system that provides real-time information about the bus route and schedule.
The eCitaro also features innovative technology that improves the safety and efficiency of the bus. It has a range of driver assistance systems, including a collision avoidance system, a lane departure warning system, and an emergency braking system. It also features an electric heat pump system that uses waste heat from the drivetrain to heat the interior of the bus, reducing the energy required for heating.
One of the unique features of the eCitaro is its noise-reducing design. It has an electric motor that produces very little noise, making it an ideal solution for urban areas where noise pollution is a concern. The eCitaro also features a regenerative braking system that recovers energy during braking and stores it in the battery system, further reducing energy consumption and improving the bus's overall efficiency.
The eCitaro has been well-received by both operators and passengers alike. It has been deployed in various cities across Europe, including Berlin, Madrid, and Zurich, and has received several awards for its innovative design and sustainability benefits.
Mercedes-Benz has also developed a range of other sustainable transportation solutions, including hybrid and hydrogen fuel cell buses. The eCitaro is part of the company's wider commitment to sustainable transportation and reducing emissions.
In conclusion, the Mercedes-Benz eCitaro is a unique and innovative electric bus that provides a sustainable and comfortable mode of transportation for passengers. With its advanced technology and safety features, it is a reliable and efficient solution for public transport operators looking to reduce their carbon footprint and improve the air quality in their cities. Its noise-reducing design and regenerative braking system make it an ideal solution for urban areas, while its modular battery system and flexible configuration make it a versatile and adaptable solution for a range of transportation needs.
06-18-2024-Princeton Meetup-Introduction to MilvusTimothy Spann
06-18-2024-Princeton Meetup-Introduction to Milvus
tim.spann@zilliz.com
https://www.linkedin.com/in/timothyspann/
https://x.com/paasdev
https://github.com/tspannhw
https://github.com/milvus-io/milvus
Get Milvused!
https://milvus.io/
Read my Newsletter every week!
https://github.com/tspannhw/FLiPStackWeekly/blob/main/142-17June2024.md
For more cool Unstructured Data, AI and Vector Database videos check out the Milvus vector database videos here
https://www.youtube.com/@MilvusVectorDatabase/videos
Unstructured Data Meetups -
https://www.meetup.com/unstructured-data-meetup-new-york/
https://lu.ma/calendar/manage/cal-VNT79trvj0jS8S7
https://www.meetup.com/pro/unstructureddata/
https://zilliz.com/community/unstructured-data-meetup
https://zilliz.com/event
Twitter/X: https://x.com/milvusio https://x.com/paasdev
LinkedIn: https://www.linkedin.com/company/zilliz/ https://www.linkedin.com/in/timothyspann/
GitHub: https://github.com/milvus-io/milvus https://github.com/tspannhw
Invitation to join Discord: https://discord.com/invite/FjCMmaJng6
Blogs: https://milvusio.medium.com/ https://www.opensourcevectordb.cloud/ https://medium.com/@tspann
Expand LLMs' knowledge by incorporating external data sources into LLMs and your AI applications.
We are pleased to share with you the latest VCOSA statistical report on the cotton and yarn industry for the month of May 2024.
Starting from January 2024, the full weekly and monthly reports will only be available for free to VCOSA members. To access the complete weekly report with figures, charts, and detailed analysis of the cotton fiber market in the past week, interested parties are kindly requested to contact VCOSA to subscribe to the newsletter.
Did you know that drowning is a leading cause of unintentional death among young children? According to recent data, children aged 1-4 years are at the highest risk. Let's raise awareness and take steps to prevent these tragic incidents. Supervision, barriers around pools, and learning CPR can make a difference. Stay safe this summer!
Discover the cutting-edge telemetry solution implemented for Alan Wake 2 by Remedy Entertainment in collaboration with AWS. This comprehensive presentation dives into our objectives, detailing how we utilized advanced analytics to drive gameplay improvements and player engagement.
Key highlights include:
Primary Goals: Implementing gameplay and technical telemetry to capture detailed player behavior and game performance data, fostering data-driven decision-making.
Tech Stack: Leveraging AWS services such as EKS for hosting, WAF for security, Karpenter for instance optimization, S3 for data storage, and OpenTelemetry Collector for data collection. EventBridge and Lambda were used for data compression, while Glue ETL and Athena facilitated data transformation and preparation.
Data Utilization: Transforming raw data into actionable insights with technologies like Glue ETL (PySpark scripts), Glue Crawler, and Athena, culminating in detailed visualizations with Tableau.
Achievements: Successfully managing 700 million to 1 billion events per month at a cost-effective rate, with significant savings compared to commercial solutions. This approach has enabled simplified scaling and substantial improvements in game design, reducing player churn through targeted adjustments.
Community Engagement: Enhanced ability to engage with player communities by leveraging precise data insights, despite having a small community management team.
This presentation is an invaluable resource for professionals in game development, data analytics, and cloud computing, offering insights into how telemetry and analytics can revolutionize player experience and game performance optimization.
Discovering Digital Process Twins for What-if Analysis: a Process Mining Appr...Marlon Dumas
This webinar discusses the limitations of traditional approaches for business process simulation based on had-crafted model with restrictive assumptions. It shows how process mining techniques can be assembled together to discover high-fidelity digital twins of end-to-end processes from event data.
Generative Classifiers: Classifying with Bayesian decision theory, Bayes’ rule, Naïve Bayes classifier.
Discriminative Classifiers: Logistic Regression, Decision Trees: Training and Visualizing a Decision Tree, Making Predictions, Estimating Class Probabilities, The CART Training Algorithm, Attribute selection measures- Gini impurity; Entropy, Regularization Hyperparameters, Regression Trees, Linear Support vector machines.
2. Introduction
— What is a Tesla?
— An all electric car created by Tesla Motors
— It’s not a hybrid – you don’t put gasoline in the car, it has
no engine, it has no tailpipe
— Charging the Battery
— Plug it into a 240 volt wall outlet at home (1/3 the cost of
gasoline)
— Use Supercharger Stations on the road (Superchargers
provide up to 170 miles of range in as little as 30 minute
September 2017 R. W. DiIorio
3. Introduction continued…
— An iPad-like touch screen activates various functions of the
car
— Your smartphone can interact with the Tesla
— It can tell you where your car is parked,
— How much longer it will be until the battery is charged,
— Or turn on the heater or A/C before returning to your vehicle
— Safety Features
— Because the Tesla has no engine, the front end becomes a crumple zone
— Battery pack located underneath the car creates a very low center of
gravity
— A fully electric car releases no greenhouse gases or toxic
fumes
September 2017 R. W. DiIorio
4. Tesla Model 3 Touchscreen
September 2017 R. W. DiIorio
5. Annual Service Inspection
Unlike gasoline cars, Tesla vehicles requires no oil changes, fuel filter, spark plug
replacements, or emission checks. As an electric car, even brake pad
replacements are rare because most braking energy is regeneratively captured
by the motor and returned to the battery.
Year 1
12,500 miles
Year 2
25,000 miles
Year 3
37,500 miles
Year 4
50,000 miles
Multi point inspection (w/tire rotation
and alignment check)
X X X X
Cabin air filter replacement X X X X
Wiper blade set replacement X X X X
Key fob battery replacement (set) X X X X
Brake fluid replacement X X
A/C service X X
Battery coolant replacement X
Service cost $400 $700 $400 $900
September 2017 R. W. DiIorio
6. History
— Tesla
— Tesla founded in 2003
— 2008 Musk becomes CEO
— Tesla sold 2,250 Roadster models between 2008 and 2012.
— Tesla went public in 2010, the first American car company to do so since Ford
Motor Company in 1956.
— 2012 Supercharger station network introduced
— First deliveries of the Model S June of 2012
— Tesla introduces dual motor models of the Model S in January 2015
— First deliveries of the Model X September of 2015
— Tesla takes reservations for the Model 3 on March 31, 2016
— Model 3 delivered to first 30 customers on July 28, 2017
— Elon Musk
• Co-founder of Paypal
• Musk received $165 million when Paypal was sold to Ebay in 2002
• Musk invested every penny into a new company, Space X
• Elon Musk is one of the founders of SolarCity (merged with Tesla Motors in
November 2016)
September 2017 R. W. DiIorio
7. Tesla Specifications
— Model S: $71,000-$141,500
— P100D – range: 315 miles, 0-60 in 2.5 seconds 155 mph
— 100D - range: 335 miles, 0-60 in 4.1 seconds 155 mph
— 75D - range: 259 miles, 0-60 in 4.2 seconds 140 mph
— 70 (rear drive)- range: 249 miles, 0-60 in 4.3 seconds 140 mph
—
— Model X: $79,500-$145,000
— P100D – range: 289 miles, 0-60 in 2.9 seconds 155 mph
— 100D - range: 295 miles, 0-60 in 4.7 seconds 155 mph
— 75D - range: 237 miles, 0-60 in 4.9 seconds 130 mph
—
— Model 3: $35,000-$44,000
— range: 220-310 miles, 0-60 in 5.1-5.6 seconds 130-140 mph
September 2017 R. W. DiIorio
8. Software
— Tesla vehicles receives over the air software
updates that add new features and service updates
— Real time energy consumption and range estimation
— Calendar synchronization for daily schedule and tap
to navigate
— Wi-Fi and Internet connectivity, Internet streaming
radio and AM, FM
September 2017 R. W. DiIorio
9. Li-Ion Battery Pack
— Thousands of cells
— Other automaker use specialized large format Li-
Ion cells
— Tesla's battery pack is made up of thousands of
inexpensive commodity cells similar to those
found in laptops.
— Even including the overhead of the pack
enclosure, connections between cells in modules,
sensors, and circuitry, Tesla has a lower pack cost
than any other maker of plug-in electric cars.
September 2017 R. W. DiIorio
10. Li-Ion Battery Pack continued…
— Simplifying a cheap cell
— Tesla also redesigned its cell to be much less
complex by removing expensive safety systems
built into each individual cell.
— When used as a laptop battery, each cells
requires a safety mechanisms to prevent fires.
— But in a large, electronically-controlled, liquid-
cooled battery pack like the one used in Tesla
vehicles, the safety features on each cell would
be redundant.
September 2017 R. W. DiIorio
12. Tesla Gigafactory
— The Tesla Gigafactory 1 is a lithium-ion battery factory
located south of Reno, NV.
— The factory became operational in the first quarter of
2016.
— It is the world's largest building by physical area and the
second-largest building by usable space, only smaller than
the Boeing Everett Factory.
— Tesla expects that Gigafactory 1 will reduce the
production cost for their electric vehicle batteries and
Powerwalls by 30%.
— The factory will employ approximately 6,500 people and
supply 500,000 Tesla cars per year.
September 2017 R. W. DiIorio
14. AC Induction Motor
— The AC induction motor is relatively cheap to make, and
power electronics for automotive applications have
come down in price significantly over the past 20 years.
Regenerative braking comes essentially for free.
— With an inverter it becomes possible to power an
induction motor from a battery or other DC source
— Variable speed also becomes possible simply by
adjusting the inverter frequency.
— Today, all the hybrids are powered by DC brushless
drives, with no exceptions. Tesla vehicles instead use
induction drives.
September 2017 R. W. DiIorio
16. Regenerative Braking
— When you take your foot off the accelerator, the car
will begin to slow down almost immediately.
— This occurs because the electric motor is transformed
into a generator when power from the battery is
removed.
— The motor turned generator produces an electric
current that is sent back to the battery to recharge it.
How Does an Electric Vehicle Work?
https://youtu.be/3SAxXUIre28
September 2017 R. W. DiIorio
17. Electric Car Charging 101
— Level 1 Charger (120v std household, 1.4 kW): 4 miles
per hour of charge
— Level 2 Charger (240v, 7.7 kW): 25 miles per hour of
charge
— Level 3 Charger (DC) – CHAdeMO (50 kW) – 75-100 miles
in 30 minutes
— Level 4 Charger (DC)- Supercharger (90kW) 170 miles in
30 minutes
— 900 Supercharger Stations with 6,058 Superchargers in
North America
September 2017 R. W. DiIorio
19. Enhanced Autopilot
September 2017 R. W. DiIorio
— Enhanced Autopilot provides the capability
— to match speed to traffic conditions
— keep within a lane
— automatically change lanes without requiring driver input
— transition from one freeway to another
— exit the freeway when your destination is near
— self-park when near a parking spot
— and be summoned to and from your garage.
— Enhanced Autopilot also provides front and side
collision avoidance and automatic emergency braking.
20. Full Self-Driving
— Full Self-Driving will enable short and long distance
trips with no action required by the driver.
— Your Tesla will
— navigate urban streets (even without lane markings)
— manage complex intersections with traffic lights, stop
signs and roundabouts
— and handle densely packed freeways with cars moving
at high speed.
— When you arrive at your destination simply step
out at the entrance
— and your car will enter park seek mode and
automatically search for a spot and park itself
— a tap on your phone summons it back to you.
September 2017 R. W. DiIorio
21. Sensors
September 2017 R. W. DiIorio
— Eight surround cameras
— Twelve updated ultrasonic sensors
— A forward-facing radar provides additional data about
the world that is able to see through heavy rain, fog,
dust and even the car ahead.
— To make sense of all of this data, a new onboard
computer with over 40 times the computing power of
the previous generation (initial autopilot version) runs
the new Tesla-developed neural net for vision, sonar
and radar processing software
22. Sensors continued …
— Radar
— Narrow Forward Camera
— Main Forward Camera
— Wide Forward Camera
— Forward Looking Side Cameras
— Rearward Looking Side Cameras
— Rear View Camera
— Ultrasonic sensors
September 2017 R. W. DiIorio
23. Autonomous Mode Onboard
Computer
— Artificial Intelligence provides the rules for
safe driving in various situations and
environments
— Deep Learning Neural Networks are used
for pattern recognition based on the
probability of a pattern match
— NVIDIA Drive Px2 Computer takes the
output of the various sensors to “see” the
objects surrounding the car
September 2017 R. W. DiIorio
24. Current Electric Vehicles
September 2017 R. W. DiIorio
BEV
Range
(miles) HP
Acceleration
(0-60 mph)
Top speed
(mph)
Cost
($)
Ford Focus Electric 76 143 10.1 84 29,170
BMW i3 81 170 7.0 93 42,400
Volkswagen e-Golf 83 115 10.1 87 28,995
Fiat 500e 93 111 8.7 85 31,800
Kia Soul EV 93 109 9.2 90 31,950
Mercedes B-class, B250e 101 177 7.9 101 41,450
Nissan Leaf SL 107 107 10.2 100 36,790
Chevrolet Bolt* 200 200 7.0 91 37,500
Tesla Model 3 (RWD)** 215 - <6.0 - 35,000
Tesla Model S (AWD) 265 691 2.8 155 81,000
Tesla Model X (AWD) 275 763 3.2 155 85,500
**Supercharger stations have been built along major highways
*Chevy does not plan to provide a charging station network
27. Model 3 Standard Equipment
Standard Battery
— Range: 220 miles (EPA estimated)
— Supercharging rate: 130 miles of range per 30 minutes
— Home charging rate: 30 miles of range per hour (240V outlet,
32A)
Performance
— 0-60 mph: 5.6 seconds
— Top speed: 130 mph
Interior
— 15” touchscreen display
— FM/Internet streaming radio
September 2017 R. W. DiIorio
28. Standard Equipment continued …
Convenience
— Onboard maps and navigation
— Wi-Fi and LTE internet connectivity
— Keyless entry and remote climate control using the Tesla
app
— Voice activated controls
— Bluetooth hands-free calling and media streaming
— Back-up camera
— Auto dimming rear-view mirror
September 2017 R. W. DiIorio
29. Standard Equipment continued …
Safety
— Full LED exterior lighting
— Eight cameras, forward radar and twelve ultrasonic
sensors enabling active safety technologies
including collision avoidance and automatic
emergency braking
— Six front row and two side curtain airbags
— Three-point safety belts with belt-reminders for
driver and four passengers
— Electronic stability and traction control
September 2017 R. W. DiIorio
30. Standard Equipment continued …
— Four-wheel antilock disc brakes with electronic
parking brake
— Child safety locks
— Anti-theft alarm system
— Tire pressure monitoring system
Warranty
— Vehicle: 4 year, 50,000 mile limited warranty
— Battery warranty: 8 year, 100,000 mile
September 2017 R. W. DiIorio
31. Standard Equipment continued …
Vehicle Specifications
— Length: 184.8”
— Width: 76.1” (72.8” with mirrors folded)
— Height: 56.8”
— Wheelbase: 113.2”
— Seating capacity: 5 adults
— Luggage capacity: 15 cubic feet
— Curb weight:
— 3549 lbs. (Model 3)
— 3814 lbs. (Model 3 Long Range)
September 2017 R. W. DiIorio