Smart Waste Management System: Difference between revisions

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{{ActionCluster
{{ActionCluster
| title              = Smart Waste Management System
|image=Smart Waste Management System.jpg
| team               = NOKIA, T-Systems, Ecomobile  
|team=Nokia, T-Systems, Ecomobile
<!-- | leader             = [mailto:vara.talari_nehemiah_vara@nokia.com Vara Talari Nehemiah] – Head of SI Portfolio.-->
|leader=Vara Talari
| leader            = Vara Talari Nehemiah, Head of SI Portfolio.
|imagecaption=Smart Waste Management System
| image              = Smart Waste Management System.jpg
|municipalities=City of Zagreb Croatia, City of Bonn Germany, City of Koprivnica Croatia, City of Velika Croatia
| imagecaption       = Smart Waste Management System
|status=Launched
| municipalities     = Zagreb, Croatia
|download=300 A 7 GCTC Slides Smart Waste & Security.pdf
<!--City of Zagreb, Croatia; City of Bonn, Germany; City of Koprivnica, Croatia; City of Velika, Croatia -->
|description=Smart Waste is a system that enables direct cost reduction with easy to deploy smart sensor supporting up to 10 years of operational autonomy for remote waste container fill level measuring, geolocation, temperature, tilt, and collection routes optimization# Major flood event every year cause large amounts of residential and commercial damage
| status             = Launched
|challenges=# Waste collection trucks capacity are not fully utilized
| website            = NA
# Waste container fill levels are not known at the time truck rolls for collection means collection route is not optimized
| download           = [https://drive.google.com/open?id=1M8T3v3benxx12TTtgc1fgv1-5pcT2kdR Tech Jam Presentation]
|solutions=The Waste Management solution installs sensor inside existing waste container. Sensor usages cellular network connection to send data in to cloud based waste application and analytics platform
| description       =  
|requirements=# Define and assemble project team   
Smart Waste is a system that enables direct cost reduction with easy to deploy smart sensor supporting up to 10 years of operational autonomy for remote waste container fill level measuring, geolocation, temperature, tilt, and collection routes optimization# Major flood event every year cause large amounts of residential and commercial damage
| challenges         =  
# Waste collection trucks capacity are not fully utilized
# Waste container fill levels are not known at the time truck rolls for collection means collection route is not optimized  
| solutions         =  
The Waste Management solution installs sensor inside existing waste container. Sensor usages cellular network connection to send data in to cloud based waste application and analytics platform
| requirements       =  
# Define and assemble project team   
# Identify waste & container types and its location
# Identify waste & container types and its location
# Create scope and requirements
# Create scope and requirements
Line 25: Line 17:
# Create and load metadata like waste collection trucks, drivers, work hours, truck depo, waste drops, etc.
# Create and load metadata like waste collection trucks, drivers, work hours, truck depo, waste drops, etc.
# Test e2e solutionUpdate existing Dashboard application source code to show the data received from sensors and modification of User Interface of the dashboard.
# Test e2e solutionUpdate existing Dashboard application source code to show the data received from sensors and modification of User Interface of the dashboard.
| kpi               =  
|kpi=# Waste collection frequency
# Waste collection frequency
# Fuel consumption of truck
# Fuel consumption of truck
| measurement       =  
|measurement=# Sensor based fill level reporting to define waste collection over 1-2 months compared to current practice
# Sensor based fill level reporting to define waste collection over 1-2 months compared to current practice
# Truck capacity, collection route and mileage utilization over 1-2months compared to current practice
# Truck capacity, collection route and mileage utilization over 1-2months compared to current practice  
|standards=# Ultralow power sensor with any existing cellular connectivity’s and multitenant SaaS solution ready to deploy without any modification
| standards         =  
# Ultralow power sensor with any existing cellular connectivity’s and multitenant SaaS solution ready to deploy without any modification
# Return of investment within 6-8months is anticipated
# Return of investment within 6-8months is anticipated
 
|cybersecurity=* Senor and smart waste application do not store end user personal sensitive data
| replicability      = Describe how the project could ensure replicability.
| cybersecurity     =  
* Senor and smart waste application do not store end user personal sensitive data
* Geolocation of container data is transported using secure encrypted channel provided by cellular network
* Geolocation of container data is transported using secure encrypted channel provided by cellular network
* Waste application is stored in cloud with user and admin authorization and authentication for given tenant portfolio
* Waste application is stored in cloud with user and admin authorization and authentication for given tenant portfolio
|impacts             =  
|impacts=* Direct cost reduction of up to 40% in fuel and overall waste logistic
* Direct cost reduction of up to 40% in fuel and overall waste logistic
* Existing waste container can be used
* Existing waste container can be used
| demonstration     =  
|demonstration=# Sensor installation inside waste container or on display panel
# Sensor installation inside waste container or on display panel
# Sensor activation for data collection
# Sensor activation for data collection
# Web portal for Smart Waste Management solution
# Web portal for Smart Waste Management solution
# Portable device (tablet or mobile phone) for driver application
# Portable device (tablet or mobile phone) for driver application
 
|chapter=Smart Waste
| supercluster       = Utility
|supercluster=Utility
| year               = 2018
|year=2018
|title=Smart Waste Management System
|replicability=Describe how the project could ensure replicability.
}}
}}

Latest revision as of 05:44, January 25, 2023


Smart Waste Management System
GCTC logo 344x80.png
Smart Waste Management System.jpg
Smart Waste Management System
Team Organizations Nokia
T-Systems
Ecomobile
Team Leaders Vara Talari
Participating Municipalities City of Zagreb Croatia
City of Bonn Germany
City of Koprivnica Croatia
City of Velika Croatia
Status Launched
Document Download

Description

Smart Waste is a system that enables direct cost reduction with easy to deploy smart sensor supporting up to 10 years of operational autonomy for remote waste container fill level measuring, geolocation, temperature, tilt, and collection routes optimization# Major flood event every year cause large amounts of residential and commercial damage

Challenges

  1. Waste collection trucks capacity are not fully utilized
  2. Waste container fill levels are not known at the time truck rolls for collection means collection route is not optimized

Solutions

The Waste Management solution installs sensor inside existing waste container. Sensor usages cellular network connection to send data in to cloud based waste application and analytics platform

Major Requirements

  1. Define and assemble project team
  2. Identify waste & container types and its location
  3. Create scope and requirements
  4. Develop project plan for deployment
  5. Create and load metadata like waste collection trucks, drivers, work hours, truck depo, waste drops, etc.
  6. Test e2e solutionUpdate existing Dashboard application source code to show the data received from sensors and modification of User Interface of the dashboard.

Performance Targets

Key Performance Indicators (KPIs) Measurement Methods
  1. Waste collection frequency
  2. Fuel consumption of truck
  1. Sensor based fill level reporting to define waste collection over 1-2 months compared to current practice
  2. Truck capacity, collection route and mileage utilization over 1-2months compared to current practice

Standards, Replicability, Scalability, and Sustainability

  1. Ultralow power sensor with any existing cellular connectivity’s and multitenant SaaS solution ready to deploy without any modification
  2. Return of investment within 6-8months is anticipated

Cybersecurity and Privacy

  • Senor and smart waste application do not store end user personal sensitive data
  • Geolocation of container data is transported using secure encrypted channel provided by cellular network
  • Waste application is stored in cloud with user and admin authorization and authentication for given tenant portfolio

Impacts

  • Direct cost reduction of up to 40% in fuel and overall waste logistic
  • Existing waste container can be used

Demonstration/Deployment

  1. Sensor installation inside waste container or on display panel
  2. Sensor activation for data collection
  3. Web portal for Smart Waste Management solution
  4. Portable device (tablet or mobile phone) for driver application