Transcript Document
BAP Vision
Storm Water Management
Sten Yondt
Clean water is in the long term one of our most valuable assets.
Large water systems provides the return of waste water to lakes and the sea without purification. Large amount of toxics are included and pollute our drinking water.
The treatment of industrial and hazardous waste or the rehabilitation of contaminated and abandoned mining sites is on the global agenda every day.
How do we detect toxics and take action?
UPWIS is a Solution provider within the field of “National Security and Public Safety”. The company develops exclusive solutions for detection, report and action tools to avoid negative impact on public safety. UPWIS delivers scalable turn-key solutions to municipalities as well as private industry facilities or compounds.
UPWIS enables several business models due to customer requirements.
Harbor Water Management
UPWIS provides application optimized systems for the Internet of Things market
Enabling communication within a WSN (wireless sensor network and to WAN/Internet, dedicated routers provides secured links to databases and application services. Data access and control from Mobile (Android, iOS) or fixed clients enables new applications.
Wireless sensors ”small data” I/O Router/Gateway WAN / Internet Data fusion, ”Big Data” Clients
Wireless Sensor Networks (WSN)
A Large amount of specialised smart sensors connected by radio (or other links) in a close area, connected to internet Then, internet connected computers can access and use this data input and control output in a WSN , fusioned data can be create ”with larger value”, use and visibility – and provided to end users as internet services. => Internet of Things
Key driving factors
• • • • • • Real time communication Scalability Rule engine with data mining Versatile monitoring Two way communication Initiate action remote
Sensor package Sensor node Cable Sensor
UPWIS Water Drain Functional Classification
Public data network Radio communication Gateway Power supply Command And control
• • • • •
Operational interface Receiving, compiling and interpretation of presented information Continuous monitoring of waste water status Outlining of potential risk scenarios/conclusions about negative impacts on vital objects Information and alarm to concerned authorities and public Start of rescue and protection activities
Step by step Communication end to end - development
S e n s o r SN e n n a t A n Action t G a e w a y a c c e s N e t s s s C & C a c c e C&C IOT network Other information sources Information and warnings to the public/local and central authorities Triggering automated activities emergency services, remote management of security and safety arrangements
Real-time On-board Vision Processing
Geo-location, GCP Rectification Recognition Identification
Visual Intelligence Solutions
Today. Big expensive central operator command, many cameras, huge installation/infrastructure cost. Low probability of intercept due to operators. Polled network.
BAP. Intelligent cameras (Intelligent Vision Nodes, IVN), low cost network infrastructure, event driven network, collaborative “system” AI functionality BAP core processing capability Local intelligence System intelligence Subscribers of certain events
4/27/2020
Subscribers of all events! !Overload!
Future
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BAP has during two years established core products, software, and begun shipping products to North and South America. The business is ready to scale.
The company is ready to add Visual intelligence Solutions to its offerings and sign contracts with major system suppliers such as xx yy.
Early invites from large companies to develop applied research results BAP has positive cash flow and should remain cash flow positive from the business.
BAP scalable business allow for parallel market growth.
BAP Vision
Internet of Things Concept
Communication From Impurity to Command and control
Communication link Command And control
• • •
Requirements – sensors Identifying correct Impurity to right quantity within a very short time Able to communicate required information on line “Time slot report” to secure detecting increasing, sustained or decreasing amount of impurity
• • • •
Requirements – C&C Distinguishing reporting sensor/ sensor groups Quick compilation of the data collected Able to communicate required information on line “Time slot report” to secure detecting increasing, sustained or decreasing amount of impurity
Accesspoint / gateway
Sensor information is concentrated from local groups of wells and linked to Internet with suitable standard wireless or wired city network.
GSM/3G or WiFi is used for connection to internet – optionally, other local alternatives may be used. Satellite is also possible.
Design and product focus
Wireless sensors systems /Internet of Things is a natural extension of Internet , but due to its nature with resource limitations in power, computing and communication performance - existing solutions for security and authorization of data exchange with users and data providers must be adopted.
Using IPv6/6lowPan and encryption IPSec to protect and assure data integrity together with authorization schemes, the connection between WSN and Internet may preserve both integrity issues and enable sensor based charging schedules.