CASE STUDY

Token-based data collection in the automotive industry

The next step towards the car of the future

The chequebook of the future
Securely connect all data to the car with blockchain technology

VERKAUF

VERARBEITUNG

TRANSAKTIONEN

LOGISTIK

PRODUKTION

VERKAUF

VERARBEITUNG

TRANSAKTIONEN

LOGISTIK

PRODUKTION

Underlying technology

A token (or NFT) is a digital representation of a physical asset in ablockchain database
With each new vehicle leaving the factory, a new token is being created inthe database

A token is like a digital car key

Car Manufactures and their token remain linked, also after the resale of the car(“The owner of the token is the owner of the car”)

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

The buyer of the pre-owned car gets insights to the entire vehicle history

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

A step into the digital age - from paper towards a digital database solution

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Increased resale value through a gapless car history

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

More security for buyers of pre-owned cars

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Where blockchain can help to shape the future of the industry

Integrate exclusive items - besides the entire car, BENTLEY items suchas luggage can be portrayed as a token in the blockchain database

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Politics and corporations trust in blockchain-technology - the systemcould soon become a standard among carmakers

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Digital police checks - vehicle documentation, certifications, registrationdocuments, drivers license can be accessed via a scanning device

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

IoT-enabled sensors - connected sensors inside the vehicle can trackchanges/ damages/ usage and automatically send data into the database

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Simple and secure processing of pre-owned car sales

Buyer 1 purchases the vehicle in new condition

All collected data about the vehicle is stored in the blockchain database and will be linked to the car’s token

Increases the vehicle’s resale value through a 100% complete chequebook

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Fully automated data collection - no additional effort required from the owner

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Buyer 2 purchases the pre-owned vehicle

The token (= digital car keys) are being handed over to the new owner alongside the car

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

The new owner receives all information about the history of his new BENTLEY

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Increased security for the buyer: manipulation (e.g. coverups of incurred damages) not possible

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Pre-used car is being certified by Menufactur

Unmistakable identification of the vehicle based on information stored in its token

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Availability of all information about the car’s history simplifies the certification process

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

Digital certificate (“Certified by BENTLEY”) can be issued alongside the physical certification

BIM supports the construction process in three steps:
1. Plan the project assessing internal and external factors. A complete simulation of the building is being created in advance for more detailed visualization and a thorough risk assessment. The capabilities of advanced data analytic sallow for various data inputs that may later affect the project in some way. Think of traffic data to precisely calculate the delivery of resources to the construction site or the analysis of weather data to avoid interruptions due to adverse weather-conditions.

2. Monitor ongoing processes of the construction site. Data input along the construction allows planners to constantly align the actual data with the data of the model and recognize deviations in real-time. Faster identification of mistakes and agility in adjusting of inefficiencies within the construction process are the result.

3. After finishing the production process there will be a complete database at hand. Including data about the entire production process and the execution of all steps of the production plan. This data can be used as a proof of work, a proof of sustainability, or to feed the BIM-systems for future projects.

OUR MISSION

We develop blockchain-based applications, tailor-made and always on the cutting edge of technology.