National Conference on Emerging Trends in Information

National Conference on Emerging Trends in Information, Management and Engineering Sciences
NCe-TIMES#1.0
IOT Applications on Secure Smart Shopping System
Mr.K.Sreenivasa Rao1 and C.Madhuri2
1Associate Professor, dept of E.C.E, AITS, Rajampet, A.P, India, ([email protected])12PG Scholar, dept of E.C.E, AITS, Rajampet, A.P, India, ([email protected])2ABSTRACT: A shopping center or complex is where individuals purchase item(s) for their general utilizes. The clients need to hold up in long lines to get their items filtered utilizing standardized tag scanner and get it charged. To dispose of this, we have proposed another Smart Shopping Trolley utilizing RFID (Radio Frequency Identification). This usage is utilized to help a man while shopping and furthermore to abstain from remaining in long lines and accordingly sparing time. The savvy shopping trolley would comprise of a microcontroller, Android Device, RFID Reader and an Electronic Display. The items in the strip malls will have RFID labels to recover/get to data about it. At the point when a client puts an item in the keen trolley, the RFID Reader will read the Product ID and the data identified with it will be put away in controller. There will be correspondence between android gadget, principle server and charging framework (entryway framework) through Bluetooth module. The aggregate sum of the items in the trolley will be computed utilizing android gadget and it will updated to the server using GPRS.

I.INTRODUCTION
Presently days acquiring and shopping at huge shopping centers is turning into a day by day action in metro urban communities. We can see colossal surge at shopping centers on vacations and ends of the week. The surge is much more when there are unique offers and rebate. Individuals buy distinctive things and place them in trolley.
The framework will be put in all the trolleys. It will comprise of a RFID peruser. Every one of the items in the shopping center will be outfitted with RFID labels. At the point when a man puts any items in the trolley, its code will be identified and the cost of those items will be put away in memory. As we put the items, the expenses will get added to add up to charge. In this manner the charging will be done in the trolley itself. Thing name and its cost will be shown on LCD. Likewise the items name and its cost can be declared utilizing headset. At the charging Counter the aggregate bill information will be exchanged to PC by remote modules.

Humans have always invented and developed a technology to support their needs ever since the beginning of mankind. The basic purpose of advancement in technology has been in minimizing tasks and making everyday chores easier and faster, irrespective of the various domains available. A major task on which human beings are found spending considerable amount of time is shopping. According to a Survey, approximately most of the humans spend 1.5 hours daily on shopping.

A large number of customers will always tend to walk out of a queue if the queue is very long. The current shopping environment can simply be classified into two categories Shopping in-person and Shopping in absentia.
National Conference on Emerging Trends in Information, Management and Engineering Sciences
NCe-TIMES#1.0
II.LITERARUTE SURVEY
Dr. Suryaprasad J in “A Novel Low-Cost Intelligent Shopping Cart” 1 is proposed a low-cost shopping aid that helps the customer for the selection of the products and also inform the customer any offers present on the products as they move all over the shopping malls.
“Developing a Multitasking Shopping Trolley Based on RFID Technology” 4 was developed by Satish Kamble to help a person in shopping for reducing time while purchasing products. The main aim of proposed system is to provide a technology oriented, low-cost, easily scalable, and rugged system for helping customers in shopping.
Power supply
Arduino micro-controller
Switches

Cloud server

LCD module

GPRS
RFID Reader

Mobile

Bluetooth
RFID tags

The main aim of the “Smart Shopping Cart with Automatic billing System through RFID and Zigbee”5 was to devise a system with automatic billing which is proposed to Mr. P. Chandrasekar. This avoids the long queues in supermarkets and shopping malls. Customers can pay their bill through credit/debit cards. The limitations are I2C protocol was not supported and another one is not specifying how they can access their database to read and write data.

Dashmir Istrefi, Betim Cico 7 presented the “mobile payment through integrated NFC module on Smart phones” examined the idea of implementing additional security layer that will enable protecting NFC transactions. Also, idea for improving customer’s online shopping experience has been has been proposed. The disadvantage is applicable only for smart phone users.

III.EXISTING SYSTEM
In the Existing the Cost of the Items are just shown on the LCD with the assistance of the RFID Reader and IR Sensor
In the Existing the Cost of the Items are just shown on the LCD with the assistance of the RFID Reader and IR Sensor. In the event that the User has finished his shopping the Total amount is additionally computed and shown on the LCD itself.

Disadvantages:
No Billing is provided.

Hard to place the Product in exactly in between Sensors to identify.

Difficult to identify the Product.

IV.PROPOSED SYSTEM
In the Proposed System we have implemented the system efficiently to transfer the Data Successfully to the Billing Session. In this System we are using RFID Reader and Bluetooth to Data Transferring. GPRS used to upload the data in cloud server. The block diagram of the smart shopping cart is shown in the figure1.

Fig1: Block diagram of smart shopping cart
National Conference on Emerging Trends in Information, Management and Engineering Sciences
NCe-TIMES#1.0
HARDWARE REQUIREMENTS:
Arduino
Power supply
RFID Reader and Tags
LCD Module
GPRS
Bluetooth
The modules can be described as below:
Arduino:
The Arduino Micro Controller is a greatly simple to use and introduced on an unmarried chip. It is an In-System-Programmable Device this suggests the client haven’t any need to use the discard the IC, we can immediately join the Arduino to the PC and picking the most ideal COMM port. The Arduino has many sorts like UNO, MEGA and various others; here we use Arduino UNO board. The UNO board will show up along these lines.

Fig2: Arduino board
The Programming of the Arduino is either in C/C++. On the off chance that you’re acquainted with C, programming of the Arduino is immediate to see. If you are not familiar with C no try grabbing data of is to be had in the case codes. The Arduino Board is alluded to as ISP changes into when the code dumped inside the Board can be use at each time, wherever.
Arduino Board:
Consequently the Arduino Board does not have ability to execute code independent from anyone else, with no outer Power Supply. To speak with the outside world the Arduino board has I/O pins. It contains add up to 14 pins from 0 to 13 that can be utilized as contribution from Switches. Each stick has a 40mA of current goes through it.
The Arduino has inbuilt program to check whether it is working or not. The Arduino board has simple perfect interface outline, for speaking with the Sensors it require just 5v supply.

LCD:
LCD (Liquid Crystal Display) screen is an electronic show module and locate an extensive variety of utilizations. A 16×2 LCD show is extremely fundamental module and is usually utilized as a part of different gadgets and circuits. These modules are favored more than seven portions and other multi fragment LEDs.
A 16×2 LCD module can show 16 columns and 2 rows In this LCD each character is shown in 5×7 pixel framework. This LCD has two registers, specifically, Command and Data.

Snap to take in more about inner structure of a LCD. The LCD display is shown in figure3.

National Conference on Emerging Trends in Information, Management and Engineering Sciences
NCe-TIMES#1.0

Fig3: Liquid Crystal Display
The information given to the LCD has been stored. An order is a guideline given to LCD to do a predefined undertaking like instating it, clearing its screen, setting the cursor position, controlling showcase and so on. The information enlist stores the information to be shown on the LCD. The information is the ASCII estimation of the character to be shown on the LCD. The LCD is used to display the product details such as cost and name of the product and also total amount can also be displayed.
RFID:
RFID is a following innovation used to recognize and validate labels that are connected to any item, individual or creature. Radio recurrence Identification and Detection is a general term utilized for advances that influence utilization of radio waves keeping in mind the end goal to recognize questions and individuals. 

Fig4: RFID Reader
INTRODUCTION TO RFID
Reason for Radio recurrence Identification and Detection framework is to encourage information transmission through the convenient gadget known as label that is perused with the assistance of RFID peruser; and process it according to the necessities of an application. Data transmitted with the assistance of label offers area or recognizable proof alongside different specifics of item labeled – buy date, shading, and cost. Common place RFID tag incorporates microchip with radio receiving wire, mounted on substrate.

The RFID Reader is used to read the name and cost of the product by using the tags present on the product. The tag consists of some code which is in numeric equivalent.
gprs:
GPRS stands for General Packet Radio Service. The GPRS consists of GSM and IS-95 systems. GSM stands for Global System Monitoring. The technology used in GSM is FDMA-TDMA. GSM system consists of SIM (Subscriber Identity Module). The IS-95 system uses CDMA technology. Existing cellular systems do not fulfill the current data needs. The data rates are slow, the connection setup time is long and the services are too expensive.

National Conference on Emerging Trends in Information, Management and Engineering Sciences
NCe-TIMES#1.0
These systems are implemented for a user to handle the total call duration. These systems integrated with circuit switched voice data and a channel. The GPRS is shown in below figure.

Fig5: GPRS (General Packet Radio Service)
BLUETOOTH:
Bluetooth device is a serial communication. It is connected to the receiver pin of the Arduino microcontroller, so data is to be transmitted to the Bluetooth.

Whenever we press the button which is data uploaded to the server then the transmitted to the Bluetooth has to be stopped. The RFID reader reads the tag information initially the power supply goes to Bluetooth.

WORKING OF THE PROJECT:
The Working in this undertaking is straightforward and effectively reasonable, so would product be able to be dropped in the truck the RFID peruses the Tag information which is connected to the Product and recover the Price and Quantity of the tag.The Price and Quantity Data is specifically exchanged to the Serial window by the including every item the Price is naturally summed and if any item must be expelled from the truck at that point and leave catch is accessible, which you have hold and evacuate the item then it will consequently decrement the cost from the Total. After the Completing the entire shopping simply tap on the Completed the aggregate charging cost is sent to the Billing Section and from the billing section to cloud using GPRS.

APPLICATIONS:
Easy shopping
Super markets
Industries
Fig6: Bluetooth
Here HC-05 Bluetooth module can be used to interface with mobile. Its communication is a serial communication which is an easy way to interface with controller or pc.

National Conference on Emerging Trends in Information, Management and Engineering Sciences
NCe-TIMES#1.0
ADVANTAGES:
Easy Handling
Smart Usage
No Waiting
V.SYSTEM IMPLEMENTATION AND RESULT

Fig7: Smart Shopping System

Fig8: Displaying product name and cost

Fig9: Displaying offers on the product
CONCLUSION:
Hence from the above proposed method we have described the Smart shopping cart and it’s working. With this type of technology we can easily get the clarity about the shopping which we are buying and it looks Smart during the Usage.

National Conference on Emerging Trends in Information, Management and Engineering Sciences
NCe-TIMES#1.0
References:
Dr. Suryaprasad J, Praveen Kumar B O, Roopa D & Arjun A K “A Novel Low-Cost Intelligent Shopping Cart”, 2014 IEEE.
Amine Karmouche, Yassine Salih-Alj, “Aisle-level Scanning for Pervasive RFID-based Shopping Applications”, 2013 IEEE.

Martin Mayer, Nobert Gortz and Jelena Kaitovic, “RFID Tag Acquisition via Compressed Sensing”, 2014 IEEE.

Satish Kamble, Sachin Meshram, Rahul Thokal & Roshan Gakre, “Developing a Multitasking Shopping Trolley based on RFID Technology”, January 2014 International Journal of Soft Computing and Engineering (IJSCE).

Mr. P. Chandrasekar, Ms. T. Sangeetha, “Smart Shopping Cart with Automatic Central Billing System through RFID and Zigbee”, 2014 IEEE
R. Kumar, K. Gopalakrishna, and K. Ramesha, “Intelligent shopping
Cart,” International Journal of Engineering Science and Innovative
Technology, vol. 2, no. 4, pp. 499–507, 2013.

Dashmir Istrefi, Betim Cico “Mobile payment through integrated NFC module on smart phones” Mediterranean Conference on Embedded Computing 2012 19-21 June 2012 Page(s): 66 – 69.

M. R. Sawant, K. Krishnan, S. Bhokre, and P. Bhosale, “The rfid based
Smart shopping cart,” International Journal of Engineering Research and General Science, vol. 3, no. 2, pp. 275–280, 2015.

Author’s profile:

C.Madhuri received B.Tech degree from Modugula Kalavathamma Institute of Technology for Women, J.N.T.University, Anantapuram. She is currently working towards M.Tech degree in Electronics and Communication Engineering from Annamacharya Institute of Technology and Sciences (An Autonomous Institution). Her research interests include Embedded systems. She attend many national student symposiums and workshops.