CASE STUDY

Transparent supply chains using blockchain technology

Closer to the product than ever before:
we network customers and manufacturers

Consumers can communicate with producers after purchase -
enabled by blockchain technology

SALES

PROCESSING

TRANSACTIONS

LOGISTICS

PRODUCTION

VERKAUF

VERARBEITUNG

TRANSAKTIONEN

LOGISTIK

PRODUKTION

Documented sustainability through technology

Consumers have proof of sustainability, rather than a promise.

No more seals and certificates

Supply chain traceability

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.

Raise awareness about initiatives that promote

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.

Blockchain stands for security among consumers

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.

Technology-supported monitoring of the cold chain

More safety for consumers when consuming sensitive products.

Monitoring the cold chain in real time

Consumers demand more transparency in supply chains

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.

Optimal preparation for the Supply Chain Act 2023

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.

Prevent consumer incidents

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.

Security for the seller through complete data

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.

Real champagne at a discount price: prove it to your customers

Secure proof of origin for premium products

QR code instead of seal and certificates on the bottle

All information about the origin for wine lovers

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.

Good feeling when buying high priced items

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.

Communicate CO2-neutral supply chains to customers

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.

No dilution along the supply chain

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.

Why use Blockchain in Supply Chain Management?

Database cannot be manipulated, therefore clear proof of sustainable production

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 efficient collaboration with suppliers through agile adaptation to product demand and payment directly via blockchain

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.

Perfect integration with modern data analytics systems enables companies to make data-driven decisions

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.

Secure protection against counterfeit or diluted products along the supply chain

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.

Politicians and NGOs are increasingly turning to blockchain technology for verification and faster clearance of products

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.

Be part of our mission

We’re looking for passionate people to join us. We value flat hierarchies, clear communication, and full ownership and responsibility.

Benefits include

  • Quality-driven environment
  • Flexible hours and vacation
  • Competitive compensation and equity package
  • Parent-friendly company culture
  • Healthy work-life balance
  • Remote-friendly environment
  • Educational stipend
  • Top-of-the-line equipment
OUR MISSION

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