This document provides instructions for setting up and using a smartbin for composting food waste. It describes how to assemble the smartbin, add ingredients like jaggery and Bio Bloom, and collect the liquid fertilizer called smartbrew. The smartbin uses a two-stage process, with the first stage pickling food waste inside the bin for 2 weeks. In the second stage, the pickled waste is layered with dry compost in bamboo baskets or other containers and left to fully decompose for 3-6 weeks. Tips are provided for avoiding maggots and getting the best results from the smartbrew liquid fertilizer.
Luis Capao: Caso de Éxito recogida residuos CascaisANEPMA
1) O documento discute a gestão inteligente de resíduos em Cascais Ambiente através da inovação e alterações operacionais para melhorar a eficiência.
2) O sistema Smart Waste Management usa sensores e monitoramento em tempo real para otimizar rotas de coleta, níveis de contentores e frota.
3) As mudanças resultaram em redução de custos, emissões e aumento da satisfação do cliente.
Guest Lecture on IOT for Taylor's University (April 15, 2015) - Things that are connected to the Internet can be smarter than you think. There can be embedded intelligence to the device but there are time, a higher processing power is required in the cloud. But when you aggregate various kinds of data from multiple sources, it will bring better insights that you might not have the ability to find out if its data resides in silos. To build smarter world, we need smarter people to make it work.
The document outlines the user interface design for a smart bin application. It describes various actions a user can take such as tapping on a specific bin location to view it, toggling between weekly and custom date ranges by using a toggle switch, selecting start and end dates by tapping on dates, and accessing additional screens by tapping options in an explore menu or icons on the main page like dashboard, export, map view, and analytics.
This project involves an IOT garbage monitoring system that uses ultrasonic sensors and other sensors to monitor garbage bin levels and detect toxic gases. It sends this data via GSM modem to a web page, which displays the bin statuses in color-coded graphics. When bin levels exceed limits or toxic gases are detected, the system sounds a buzzer. The system aims to keep cities clean by automatically informing about garbage levels in bins. It uses an AVR microcontroller, sensors, modem, display, and is powered by a battery and solar panel.
Industrail design "Smart Trash Can 2020" Raghavendra Devarakonda , Sai Vivek from Sentia The global School came up with wonderful ideas. Extraordinary features included in this design document. Thanks to DesignChampionship.in team.
This document provides instructions for setting up and using a smartbin for composting food waste. It describes how to assemble the smartbin, add ingredients like jaggery and Bio Bloom, and collect the liquid fertilizer called smartbrew. The smartbin uses a two-stage process, with the first stage pickling food waste inside the bin for 2 weeks. In the second stage, the pickled waste is layered with dry compost in bamboo baskets or other containers and left to fully decompose for 3-6 weeks. Tips are provided for avoiding maggots and getting the best results from the smartbrew liquid fertilizer.
Luis Capao: Caso de Éxito recogida residuos CascaisANEPMA
1) O documento discute a gestão inteligente de resíduos em Cascais Ambiente através da inovação e alterações operacionais para melhorar a eficiência.
2) O sistema Smart Waste Management usa sensores e monitoramento em tempo real para otimizar rotas de coleta, níveis de contentores e frota.
3) As mudanças resultaram em redução de custos, emissões e aumento da satisfação do cliente.
Guest Lecture on IOT for Taylor's University (April 15, 2015) - Things that are connected to the Internet can be smarter than you think. There can be embedded intelligence to the device but there are time, a higher processing power is required in the cloud. But when you aggregate various kinds of data from multiple sources, it will bring better insights that you might not have the ability to find out if its data resides in silos. To build smarter world, we need smarter people to make it work.
The document outlines the user interface design for a smart bin application. It describes various actions a user can take such as tapping on a specific bin location to view it, toggling between weekly and custom date ranges by using a toggle switch, selecting start and end dates by tapping on dates, and accessing additional screens by tapping options in an explore menu or icons on the main page like dashboard, export, map view, and analytics.
This project involves an IOT garbage monitoring system that uses ultrasonic sensors and other sensors to monitor garbage bin levels and detect toxic gases. It sends this data via GSM modem to a web page, which displays the bin statuses in color-coded graphics. When bin levels exceed limits or toxic gases are detected, the system sounds a buzzer. The system aims to keep cities clean by automatically informing about garbage levels in bins. It uses an AVR microcontroller, sensors, modem, display, and is powered by a battery and solar panel.
Industrail design "Smart Trash Can 2020" Raghavendra Devarakonda , Sai Vivek from Sentia The global School came up with wonderful ideas. Extraordinary features included in this design document. Thanks to DesignChampionship.in team.
We realize that Garbage causes damage to local ecosystems, and it is a threat to plant and human life. To avoid all such situations we are going to implement a project called IoT Based Smart Garbage."When somebody dumps trash into a dustbin the bin ashes a unique code, which can be used to gain access to free Wi-Fi". Sensor check garbage lls in dustbin or not and Router pro- vides Wi-Fi to user. Major part of our project depends upon the working of the Wi-Fi module; essential for its implementation. The main aim of this project is to enhancement of a smart city vision.
Waste managment as an IoT enabled service in smart citiesABHISHEK KUMAR
This document presents a project on implementing an IoT-enabled waste management system in smart cities. The system uses ultrasonic sensors, Arduino, Raspberry Pi, and an Android app to monitor waste levels in bins and optimize waste collection. It aims to empower cleanliness initiatives, provide transparency to municipalities and workers, and offer services to various stakeholders involved in waste management. The system was presented by students under the guidance of their professor for their academic year 2016-17 project.
Sensing-as-a-Service - Prepare for the Next Business Model for Internet of Th...Dr. Mazlan Abbas
1) The document discusses the emerging business model of "Sensing-as-a-Service" and how telecommunications companies can evolve to become end-to-end IoT service providers.
2) It explains how the IoT market is rapidly growing with predictions of over 200 billion connected devices by 2020, creating a huge business opportunity.
3) The document proposes a sensing-as-a-service model where IoT sensor data is published to the cloud and then monetized by selling access and insights to various customers and industries like smart cities.
This document provides an introduction to Internet of Things (IoT) and smart cities. It discusses Kevin Ashton who coined the term "Internet of Things" and his vision for using data to increase efficiency. Key enabling technologies for IoT like cheap sensors, bandwidth, processing and wireless coverage are outlined. Examples of IoT applications in various sectors like manufacturing, transportation, agriculture and smart cities are provided. The document also discusses challenges in making sense of the large amounts of data generated by IoT devices and the importance of a citizen-centric approach to building smart cities by leveraging crowdsourcing and citizen engagement.
We realize that Garbage causes damage to local ecosystems, and it is a threat to plant and human life. To avoid all such situations we are going to implement a project called IoT Based Smart Garbage."When somebody dumps trash into a dustbin the bin ashes a unique code, which can be used to gain access to free Wi-Fi". Sensor check garbage lls in dustbin or not and Router pro- vides Wi-Fi to user. Major part of our project depends upon the working of the Wi-Fi module; essential for its implementation. The main aim of this project is to enhancement of a smart city vision.
Waste managment as an IoT enabled service in smart citiesABHISHEK KUMAR
This document presents a project on implementing an IoT-enabled waste management system in smart cities. The system uses ultrasonic sensors, Arduino, Raspberry Pi, and an Android app to monitor waste levels in bins and optimize waste collection. It aims to empower cleanliness initiatives, provide transparency to municipalities and workers, and offer services to various stakeholders involved in waste management. The system was presented by students under the guidance of their professor for their academic year 2016-17 project.
Sensing-as-a-Service - Prepare for the Next Business Model for Internet of Th...Dr. Mazlan Abbas
1) The document discusses the emerging business model of "Sensing-as-a-Service" and how telecommunications companies can evolve to become end-to-end IoT service providers.
2) It explains how the IoT market is rapidly growing with predictions of over 200 billion connected devices by 2020, creating a huge business opportunity.
3) The document proposes a sensing-as-a-service model where IoT sensor data is published to the cloud and then monetized by selling access and insights to various customers and industries like smart cities.
This document provides an introduction to Internet of Things (IoT) and smart cities. It discusses Kevin Ashton who coined the term "Internet of Things" and his vision for using data to increase efficiency. Key enabling technologies for IoT like cheap sensors, bandwidth, processing and wireless coverage are outlined. Examples of IoT applications in various sectors like manufacturing, transportation, agriculture and smart cities are provided. The document also discusses challenges in making sense of the large amounts of data generated by IoT devices and the importance of a citizen-centric approach to building smart cities by leveraging crowdsourcing and citizen engagement.
2. పారిశుధ్యం పరిశుబ్రత
ఊళ్ళళ్ళళ, పరతీ ఇంట్లొ కనీసం ఒకక మరుగుద్ొడ్డి ఉండ్ేలా
చూడ్ాలి. శుబ్రత, పరిశుబ్రత పై అవగాహన పంచాలి.
ఎన్నో ఊళ్ళళ్ళళ విధ్యయత్ లేక కష్టపడుతున్ాోరు.
వాళ్ళకు దూరధ్రషన్ లెక బ్యట్ పరపంచం గురించి
తెలుసయకోలెకపో తున్ాోరు. కాబ్ట్టట, పరతీ జిలాొ ల
విధ్యయత్ ఉండ్ేలా చూడ్ాలి.
3. విదయ …
మన ఊరు అభివృధ్ది చెంద్ాలంట్ె ఊరివాళ్కు
సామాజిక అభివృద్ది పై అవగాహన పంచాలి.
గాా మసయు లకు చదయవు చెపాాలి.
వయోజన విదయ
మహిళ్ల విదయ
అధ్యయన్ాలు యొకక పార ముఖ్యతనయ
4. వృతిివిదయ….
ఎన్నో గాా మాలలొ పరతి ఒకకరు కులమునయ బ్ట్టట
వృతిివిదయలపై ఆధ్ర పడ్డ ఉండ్ేవారు, ద్ానివలొ క నిో
వృతుి ల వారు వెనకబ్డ్డపో యారు.
పరసయి తం వసయి నో నూతన వొరవడ్డని, సాంకేతికతని
ఉపయోగించయక వాలి. ఉద్ాహరణకు :
• వడరంగి
• కంసాలి
• కుమమరి
5. పరతి ఒకకరూ ఇంకుడు గ ంతలను
ఏర్పాటు చేసుకోవపలి
పరతి ఇంట్లొ తపానిసరిగా వరషం
నీరు వృథాగా పో కుండ్ా వెంట్న్ే
ఇంకుడు గుంతలు ఏరాాట్ు
చేసయకోవాలని
చెరువులనయ పరిరక్డంచడ్ానికి పరతి
ఒకకరూ నడుంబిగించాలి
తాగునీరు
నీరు అభివృద్ది