This paper describes the design and implementation of a Wi-Fi-enabled home security surveillance camera using a Raspberry Pi and an IoT Module, which reduces the need for constant human supervision and control while providing improved security. Performance and effective results. Adding wireless local area network to embedded systems will open up various feasibilities like worldwide monitoring and control, reliable data storage etc. this technique comprises of wireless sensor nodes and a controller section for surveillance. The system's main features are remote user notifications, live video streaming, and portability.. Modular design is followed in order that any number of nodes are often added or removed; data acquisition is employed to sample signals and measure world physical conditions. The user is warned via e-mails, phone calls or SMS after an unusual behaviour occurs and an occasion notification is sent which shows the events captured by the camera. The IoT module eliminates the necessity for a microcontroller and wireless transceiver module during a sensor node, thus it makes the node compact, cost-effective and simple to use. the most important advantage of the system is that the user can seek surveillance from anywhere in the world and may respond consistent with the situations.

Priya B Patel, Viraj M Choksi, SwapnaJadhav and M B Potdar. Article: Smart Motion Detection System using Raspberry Pi.International Journal of Applied Information Systems 10(5):37-40, February 2016.

AamirNizam Ansari, Mohamed Sedky, Neelam Sharma and Anurag Tyagi, An Internet Internetof Things Approach for Motion Detection using Raspberry Pi International Conference on Intelligent Computing and Internet of Things (IC1T), 2015, IEEE.

Priya B Patel, Viraj M Choksi, SwapnaJadhav and M B Potdar. Article: Smart Motion Detection System using Raspberry Pi. International Journal of Applied Information Systems 10(5):37-40, February 2016.

BaswarajuSwathi, Sonia Singh, Sujithraks, INCLUSIVE ANALYSIS OF INCOMPLETE DATA SETS USING IkNNSEARCH, International Journal of Innovative Research in Computer and Communication Engineering, Vol.5, Special Issue 5, June 2017.

Subiksha, Pallavi, B.Monica,Clustering of Datasets Using KMeans Algorithm in SPARK”, IJIRCCE, vol5, issue 5, May 2017.

Muheden, Karwan, EbubekirErdem, and SercanVanin, “Design and implementation of the mobile fire alarm system using wireless sensor networks”, IEEE Int.Symp.Computational Intelligence and Informatics, 2016, pp. 000243-000246.

Bai, Ying-Wen, Li-SihShen, and Zong-Han Li, Design and implementation of an embedded home surveillance system by use of multiple ultrasonic sensors, IEEE Transactions on Consumer Electronics 56, no. 1 (2010).

.Bai, Ying-Wen, Zi-Li Xie, and Zong-Han Li, Design and implementation of a home embedded surveillance system with ultra-low alert power, IEEE Transactions on Consumer Electronics 57, no. 1 (2011).

Alan Mainwaring, Joseph Polastre, Robert Szewczyk, David Culler, John Anderson,Wireless Sensor Networks for Habitat Monitoring. WSNA02, September 28, 2002.

Neha Patil, ShrikantAmbatkar, and SandeepKakde,IoT Based Smart Surveillance Security System using Raspberry Pi,International Conference on Communication and Signal Processing, IE EE, April 6-8, 2017.

L. Chen, S. Thombre, K. Järvinen, E. S. Lohan, A. Alén-Savikko, H. Lep-päkoski, M. Z. H. Bhuiyan, S. Bu-Pasha, G. N. Ferrara, S. Honkala,J. Lindqvist, L. Ruotsalainen, P. Korpisaari, and H. Kuusniemi, “Ro-bustness, security and privacy in location-based services for future iot:A survey,” IEEE Access, vol. 5, pp. 8956–8977, Mar 2017.

A. H. Ngu, M. Gutierrez, V. Metsis, S. Nepal, and Q. Z. Sheng, “Iot mid-dleware: A survey on issues and enabling technologies,” IEEE Internet ofThings Journal, vol. 4, no. 1, pp. 1–20, Feb 2017.

I. Farris, T. Taleb, Y. Khettab, and J. Song, “A survey on emerging sdnand nfv security mechanisms for iot systems,” IEEE CommunicationsSurveys & Tutorials, vol. 21, no. 1, pp. 812–837, 2018.

I. U. Din, M. Guizani, B.-S. Kim, S. Hassan, and M. K. Khan, “Trustmanagement techniques for the internet of things: A survey,” IEEEAccess, vol. 7, pp. 29 763–29 787, 2019.

A. Gharaibeh, M. A. Salahuddin, S. J. Hussini, A. Khreishah, I. Khalil,M. Guizani, and A. Al-Fuqaha, “Smart cities: A survey on data man-agement, security, and enabling technologies,” IEEE CommunicationsSurveys & Tutorials, vol. 19, no. 4, pp. 2456–2501, 2017.

D. Eckhoff and I. Wagner, “Privacy in the smart city—applications,technologies, challenges, and solutions,” IEEE Communications Surveys& Tutorials, vol. 20, no. 1, pp. 489–516, 2018.

X. Xia, Y. Xiao, and W. Liang, “Absi: An adaptive binary splitting algo-rithm for malicious meter inspection in smart grid,” IEEE Transactionson Information Forensics and Security, vol. 14, no. 2, pp. 445–458, 2019.

V. Namboodiri, V. Aravinthan, S. N. Mohapatra, B. Karimi, and W. Jew-ell, “Toward a secure wireless-based home area network for metering insmart grids,” IEEE Systems Journal, vol. 8, no. 2, pp. 509–520, 2014.

N. N. Dlamini and K. Johnston, “The use, benefits and challengesof using the internet of things (iot) in retail businesses: A literaturereview,” in 2016 International Conference on Advances in Computingand Communication Engineering (ICACCE). IEEE, 2016, pp. 430–436.

A. C. Jose and R. Malekian, “Improving smart home security: Integratinglogical sensing into smart home,” IEEE Sensors Journal, vol. 17,