Copyright © 2018 Krishnaveni. Kommuri et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. International Journal of Engineering & Technology, 7 (2.8) (2018) 72-76 International Journal of Engineering & Technology Website: www.sciencepubco.com/index.php/IJET Research Paper Development of real time environment monitoring system using with MSP430 Krishnaveni. Kommuri 1 *, K. Venkata Ratnam 2 , Geetha Prathyusha 3 , P. Gopi Krishna 3 1 Department of Electronics and Communication Engineering, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, A.P., India 522502 2 Professor, Department of Electronics and Computer Engineering, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, A.P., India 522502 3 Department of Electronics and Computer Engineering, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, A.P., India 522502 *Corresponding author E-mail: gopikrishna.popuri@kluniversity.in Abstract This paper specifies about the monitoring environmental parameters regularly to forecast the weather prediction. Nowadays, Weather prediction plays a vital role for citizens living in the coastal areas. Mostly the parameters of the weather prediction vary to different fields and areas which hep the agricultures and travelers. This application makes the system more reliable, accurate, and flexible and dynami- cally varies the parameters of environment. We mainly consider the two factors; one is to acquire the parameter value accurately and second is to monitor continuously acting with reliability. The Environmental parameters considered in this paper are temperature and humidity, atmospheric pressure and light intensity. The MSP430 Micro controller observes the parameters by which the threats can be easily identified by the users and get alerted from the situations. Keywords: Use about five key words or phrases in alphabetical order, Separated by Semicolon. 1. Introduction Fascinating about the weather – experimenting signs of substitutes and variations on predictions of forecasting weather is mostly required to some occupations. Human interaction gets reduced and role of computer and modern embedded systems comes into pic- ture. Objective of the project is casting the weather conditions with several parameters like humidity, light intensity, temperature and atmospheric pressure etc where those are most important in num- ber of professions. By providing eagle eye on around-the-clock monitoring of various types of parameters.. This development is interfaced both in Digital and Analog systems. The paper consists of parameters monitoring, using Gateway parameter validations are done in between Client vs Server. Gateway interface with the Micro controller is one of the main features of the project, it itself provides the platform for IOT for both monitoring at the server and provides the access for client too. We have used Microcontroller MSP430 using UBISENSES sensor provided an algorithm to track the results. Section 2 de- scribes about proposed deign and advancements in the architec- ture. Section 3 gives the methodology continuation to proposed design. Section 4 defines the procedure for developing the system concepts to realize towards the output application. Section 5 inter- acts with the results that were obtained. 2. Proposed design The proposed design of this model provides the atmospheric pa- rameters which plays a vital role in prediction of the environ- ments.thi paper considered with different parameter sensors col- lects the data and send to the MSP430 Micro controller. The MSP430 mainly concentrate to grab the parameters values which are temperature and humidity, atmospheric pressure, and light intensity. By grabbing these values by the MSP430 Micro control- ler from sensors, MSP430 Micro controller is an output that shares the values to the required gateway by which the server is connect- ed. The Wi-Fi is connected to the server systems to get the accu- rate value of the environment. 3. Methodology To design the design methodology We opted specific ways to mind about the Microcontroller, sensors, Wi-Fi network, monitor, Power supply need etc. Microcontroller selected is with specific reason and cost is comfortable for new users to invest.