International Journal of Computer Applications (0975 – 8887) Volume 121 – No.2, July 2015 41 Proposing a New Method for Automatic Environmental Temperature Detection (AETD) by using IOT Manraj Singh 1 , Amit Kumar 2 , Navreet Kaur 3 , Shubham Chuchra 4 1, 2, 3 Department of Computer Science & Engg . 4 Department of IT 1,3 Sri Sai College of Engg and Technology, Amritsar, Punjab (India) 2 Sri Sai College of Engg and Technology, Pathankot -Bidhani, Punjab (India) 4 DAV College Abohar, Punjab (India) ABSTRACT IOT provides network connectivity for everyday objects that allows sending and receiving of data from the environment by utilizing two separate types of interactions viz. machine-to- machine interactions and machine-to-human interactions. This paper designed a new methodology that helps to detect environmental temperature automatically by utilizing a device named “Sensordrone”. This device can be easily activated by simply turn-on by switch. The motivation towards the usage of sensordrone is to reduce human effort that correspondingly save human energy and consumes less time. In this paper, authors are discusses about the working of any non-computing device by utilizing IOT concept. It tells how microwave Owen will be operated with IOT and also gives some additional information say the description about the detailed history of processed transactions that already allotted separate IOT addresses. The aim of utilizing IOT concept is to improve our standard of living. The main focus of this paper is to capture real world data efficiently via general interaction with common objects that are most commonly used in our daily life activities. Keywords Sensordrone, RFID, Microchip, Google glass, Non- Computing Device, Internet of things. 1. INTRODUCTION Internet of Things (IOT) provides networked interconnection with everyday objects as an example refrigerators and microwave Owen. The main aim of IOT is to provide general interaction between human & environment such as real world data objects [12] that further uses any type of interaction mode viz. human-to-machine and machine-to-machine. It may be used in any type of device in this paper authors are considering an example of non-computing device with the concept of IOT whose main function is only to capture real world data. Here, professionals will use separate types of combinations while integrated the devices as an example mostly they use sensors, RFID, connectivity, cost, energy and processors etc. The main purpose to use combination of separate devices is to follow a simple interconnected approach (i.e.-IOT) where in future this may also help to submerged into various IOT connections [11]. These different types of combinations are most commonly use two types of interaction mediums viz. machine-to-machine interaction medium and things-to-things interaction medium. The main aim is to provide a better internet wireless connectivity while utilizing separate types of devices. So, maximum researchers are preferably focused on the working of the physical devices how they will work for a long time after providing a net connectivity to separate devices. Later on they will also discuss about the detailed working of one medium with another. As researchers noticed, while changing a span of time the trends of IT will change simultaneously as an example change in our life style whose results provide a platform of smart living where smart living describes the usage of real world objects in smart manner. As researchers conducted number of surveys of different methods are followed by them while the digital data transference from the physical objects in this physical world. Current method follows by them is named as IOT that is internet of things. It helps us for the enhancement of human life style. The methodology followed by IOT is based on operational technology that further follows number of theories but the most common theories are viz. 6 A’S connectivity and 3 C’S that can be shown in fig.1 & fig.2: Fig 1: 6 A’S Connectivity towards IOT [7].