Nadeem Hassan

Bio: Nadeem Hassan is an academic researcher from SRM University. The author has contributed to research in topics: Reuse & Centralized database. The author has an hindex of 1, co-authored 2 publications receiving 78 citations.

IoT based Smart Garbage and Waste Collection Bin

Abstract: Squander administration is turning into a hotly debated issue in strategy urban communities. Municipal governments, which are to a great extent in charge of building and keeping up squander transfer systems, are quick to discover methods for limiting the cost of discarding waste and the sheer measure of waste society produces. Sadly, market and corporatist methodologies don't think about waste administration, rather leaving waste administration to nearby experts, and without government compulsion will as a rule not worry about condition benevolent item configuration, squander minimization or the reuse, re-assembling or reusing of the item toward the finish of its life cycle. We propose a framework which will have fundamental sensor like IR sensor to identify the measure of junk canister filled and discharge flag to the line following bot to gather the effectively isolated fluid and strong waste. The isolated waste will be simpler to dispose. Standard gathering of waste will make the encompassing a cleaner put.

Blockchain banking system

Abstract: The banking system in today’s world is open to threats of fraud and cyber-attacks. Since todays banking system is built on centralized databases, it is easy for an attacker to penetrate in any such database which will easily compromise all the information and data of the customers of the bank. This vulnerability of today’s banking system can be reduced by re-building the banking systems on top of block chain technology, which will remove the centralized database architecture and decentralize the data over the block chain, thus reducing the threat of database being hacked. Since the transactions over the block chain technology is verified by each and every nodes of the chain, it will make the transactions more and more secure thus making the overall banking system faster and secure.

Smart Bin: Internet-of-Things Garbage Monitoring System

Abstract: This work introduces the design and development of smart green environment of garbage monitoring system by measuring the garbage level in real time and to alert the municipality where never the bin is full based on the types of garbage. The proposed system consisted the ultrasonic sensors which measure the garbage level, an ARM microcontroller which controls system operation whereas everything will be connected to ThingSpeak. This work demonstrates a system that allows the waste management to monitor based on the level of the garbage depth inside the dustbin. The system shows the status of different four types of garbage; domestic waste, paper, glass and plastic through LCD and ThingSpeak in a real time to store the data for future use and analysis, such as prediction of peak level of garbage bin fullness. It is expected that this system can create greener environment by monitoring and controlling the collection of garbage smartly through Internet-of-Things.

Garbage monitoring system using IoT

Abstract: Nowadays certain actions are taken to improve the level of cleanliness in the country. People are getting more active in doing all the things possible to clean their surroundings. Various movements are also started by the government to increase cleanliness. We will try to build a system which will notify the corporations to empty the bin on time. In this system, we will put a sensor on top of the garbage bin which will detect the total level of garbage inside it according to the total size of the bin. When the garbage will reach the maximum level, a notification will be sent to the corporation's office, then the employees can take further actions to empty the bin. This system will help in cleaning the city in a better way. By using this system people do not have to check all the systems manually but they will get a notification when the bin will get filled.

Integration of WSN with IoT Applications: A Vision, Architecture, and Future Challenges

Abstract: The Internet of Things (IoT) represents the physical world of devices and objects connected over the network using wireless sensors. This chapter gives detailed study about the different applications of IoT with the integration of WSN (wireless sensor networks) with Internet connectivity. This allows applications to communicate among themselves and users on a global scale. A large number of IoT applications, like smart home, buildings, transport, water management, healthcare, agriculture, environment and industries, together form the smart city. Along with this, various challenges in the implementation of applications are discussed related to the reliability, sustainability, and efficiency. An open architecture looking into current need of IoT is also proposed and discussed.