Bar codes and its type with different scanner and its applicationAkshay Shelake
The document provides an overview of barcodes, including their history, technology, terminology, types, uses and benefits. It discusses that the first barcode patent was issued in 1952 and how they started being used widely in grocery stores in the 1970s to automate checkout processes. Barcodes represent a unique product identity and allow for accurate, real-time data collection that saves labor costs and improves resource management. Common barcode types include UPC, Code 128 and Data Matrix, which are used across various industries like retail, shipping, warehousing and healthcare for applications like inventory tracking, electronic data interchange and patient identification.
Mr. Woodland and Silver developed the barcode after being asked by a supermarket chain to find a better way to track inventory. Woodland drew lines of different thicknesses representing codes while visiting Miami in 1948, which led to the Universal Product Code barcode. A barcode uses a scanner to read patterns of bars and spaces that represent data about an object. It begins with a start character, ends with a stop character, and may include a checksum for error checking. Major barcode types include linear codes like UPC, Code 39, Code 128, and 2D codes like PDF417 and Data Matrix that can encode more data in less space.
Barcodes represent alphanumeric information as patterns of black and white bars of varying widths. They were first used industrially in the 1960s and began appearing on grocery products in the 1970s. Barcodes automate processes like data entry by allowing information to be scanned rather than manually typed. There are two main types: linear barcodes like the UPC code and 2D barcodes. Barcodes are now widely used across industries like retail, warehousing, and healthcare to identify and track items.
"The Barcode" Presentation
By: Group Four (Aslam, Ceren, Fohn, Sara and Youssef)
for the group assignment of the "Research Methodology" course at the University of Greenwich
This seminar discusses barcode technology. It defines barcodes as a series of vertical bars and spaces that represent numbers and symbols for product identification. Barcodes are used nearly everywhere for automated identification in business. The main types are alphanumeric, numeric-only, and 2D barcodes. Barcodes provide accurate data input and labor savings over manual systems. However, scratched or damaged barcodes can cause problems. Future applications include entertainment tickets with validation barcodes. Barcode technology continues to improve for widespread use in inventory tracking.
Barcodes provide a machine-readable representation of data through parallel bars and spaces of varying widths. In 1948, Bernard Silver and Norman Joseph Woodland began developing barcode technology, filing the first patent in 1952. Initially used for inventory tracking, the first product scanned with a barcode was a pack of Wrigley's gum in 1974. Barcodes store data through varying widths that are read by scanners and decoded into text information. They enable rapid data collection and accurate tracking of products throughout the retail supply chain.
Bar codes and its type with different scanner and its applicationAkshay Shelake
The document provides an overview of barcodes, including their history, technology, terminology, types, uses and benefits. It discusses that the first barcode patent was issued in 1952 and how they started being used widely in grocery stores in the 1970s to automate checkout processes. Barcodes represent a unique product identity and allow for accurate, real-time data collection that saves labor costs and improves resource management. Common barcode types include UPC, Code 128 and Data Matrix, which are used across various industries like retail, shipping, warehousing and healthcare for applications like inventory tracking, electronic data interchange and patient identification.
Mr. Woodland and Silver developed the barcode after being asked by a supermarket chain to find a better way to track inventory. Woodland drew lines of different thicknesses representing codes while visiting Miami in 1948, which led to the Universal Product Code barcode. A barcode uses a scanner to read patterns of bars and spaces that represent data about an object. It begins with a start character, ends with a stop character, and may include a checksum for error checking. Major barcode types include linear codes like UPC, Code 39, Code 128, and 2D codes like PDF417 and Data Matrix that can encode more data in less space.
Barcodes represent alphanumeric information as patterns of black and white bars of varying widths. They were first used industrially in the 1960s and began appearing on grocery products in the 1970s. Barcodes automate processes like data entry by allowing information to be scanned rather than manually typed. There are two main types: linear barcodes like the UPC code and 2D barcodes. Barcodes are now widely used across industries like retail, warehousing, and healthcare to identify and track items.
"The Barcode" Presentation
By: Group Four (Aslam, Ceren, Fohn, Sara and Youssef)
for the group assignment of the "Research Methodology" course at the University of Greenwich
This seminar discusses barcode technology. It defines barcodes as a series of vertical bars and spaces that represent numbers and symbols for product identification. Barcodes are used nearly everywhere for automated identification in business. The main types are alphanumeric, numeric-only, and 2D barcodes. Barcodes provide accurate data input and labor savings over manual systems. However, scratched or damaged barcodes can cause problems. Future applications include entertainment tickets with validation barcodes. Barcode technology continues to improve for widespread use in inventory tracking.
Barcodes provide a machine-readable representation of data through parallel bars and spaces of varying widths. In 1948, Bernard Silver and Norman Joseph Woodland began developing barcode technology, filing the first patent in 1952. Initially used for inventory tracking, the first product scanned with a barcode was a pack of Wrigley's gum in 1974. Barcodes store data through varying widths that are read by scanners and decoded into text information. They enable rapid data collection and accurate tracking of products throughout the retail supply chain.
This document provides an overview of barcode and QR code technology. It discusses that barcodes store data in linear/1D format while QR codes store data in 2D, allowing it to hold more information. The document outlines the basic components and workings of barcodes and QR codes, their advantages like unique identification and accuracy, and applications in areas like libraries, laboratories, and industry. QR codes in particular can be scanned by any smartphone and are commonly used now for linking to URLs and automated text/SMS.
Barcode technology was invented in 1948 by Bernard Silver at Drexel University to provide a rapid and efficient way to represent data relating to objects. It works by using varying widths and spacings of parallel lines that can be read by barcode readers. The first barcodes used ultraviolet ink but it faded too easily. Later, barcodes improved to include two-dimensional codes and are now widely used for retail, warehouses, shipping and more to automate data collection. Barcodes store detailed product information accurately and reduce errors compared to manual entry. While they provide benefits, barcodes can be damaged or systems can fail, requiring repairs.
Barcodes have been used in retail since the 1970s to automate processes like checkout and inventory tracking. There are different types of barcodes like numeric, alphanumeric, and 2D barcodes. Barcode readers scan the black and white bars and spaces and translate them into numbers or characters. This allows retailers to more efficiently manage inventory, reduce errors, gain insights from sales data, and lower costs overall. While barcodes provide many benefits, they also have drawbacks like high upfront costs and needing maintenance of barcode labels.
QR codes are two-dimensional barcodes that can store numeric, alphanumeric, and byte/binary data. They were created in 1994 and can be read by camera phones. QR codes have error correction capabilities and can store up to 7,000 characters. They are used for various applications including product tracking, mobile payments, and education. Encryption is needed for sensitive QR code data. Overall, QR codes provide an efficient way to encode and link large amounts of information for many different uses.
This document discusses barcode technology. It provides definitions of barcodes as automatic identification technologies that encode information in dark bars and white spaces. Barcodes are used to accurately track and identify items. Common uses of barcodes include tracking inventory in warehouses and retail stores. There are two main types of barcodes: linear barcodes and 2D barcodes. Barcode scanners are used to read barcodes and input the encoded data into computer systems. Benefits of barcodes include increased accuracy, automation, and productivity. Potential disadvantages include system failures causing delays and issues reading damaged or poor quality barcodes.
The document discusses barcode technology and QR codes. It defines a barcode as a predefined format of dark and white spaces that can contain specific information to allow real-time data collection. There are two main types of barcodes: linear and 2D barcodes. QR codes are a type of 2D barcode that can store more information and be read quickly by camera devices. Barcodes and QR codes provide benefits like cost efficiency, accuracy, and linking digital and physical items, but have disadvantages like requiring coding of data and system reliance.
Dhananjay Prajapati presented on bar codes. The document discussed the history of bar codes from their invention in 1949 to widespread adoption in the 1970s. It also covered different types of bar codes like linear and 2D codes, as well as bar code scanning technologies and applications in inventory control, shipping, retail, and healthcare. Benefits of bar codes included accuracy, labor savings, and real-time data collection.
The document discusses the history and development of barcoding technology from its origins in the 1930s to modern applications. It covers the key aspects of barcodes including their structure, components, types, standards, how they work, uses in various industries like retail and healthcare, and advantages/disadvantages. Barcodes have become ubiquitous in tracking inventory and streamlining operations due to their ability to automatically identify products. The technology continues to evolve and be applied in new ways.
it tells about what is barcodes, version of barcodes, representation of barcode, working principle of barcode ,advantage and disadvantage of barcode and application of barcode
Automatic data capture technologies allow data to be directly entered into computer systems without manual keyboard entry. This includes barcodes, RFID, smart cards, and biometrics. Barcodes are the most widely used method and come in linear and 2D formats. They provide accuracy, time savings over manual entry, and reduce labor costs. Barcodes are scanned using contact or non-contact readers and printed using technologies like dot matrix, inkjet, thermal, and laser printing. Two dimensional barcodes store data in a stacked or matrix format to encode more information in the same space as linear barcodes.
This document discusses barcode technology. It provides an overview of what a barcode is, the history and types of barcodes. It describes how barcodes work by using patterns of bars and spaces to represent data that is scanned by barcode readers. The document outlines common applications of barcodes in industries like retail and libraries. It discusses the advantages of barcodes like low cost and accuracy, and disadvantages like potential problems from damaged or scratched barcodes.
Barcode and RFID technology are identification tools. Barcodes use visual patterns that are scanned to represent data, while RFID uses radio waves to track tags attached to objects. RFID provides advantages like greater security, distance reading and updating capabilities compared to barcodes. However, RFID technology is generally more expensive than barcodes. Both technologies have various applications in areas like member identification, circulation, and stock verification in libraries.
Barcodes are machine-readable representations of data attached to objects to identify them. They work by having black bars and white spaces scanned by a reader that converts the pattern into a number linked to information about the item. Barcodes are generated by assigning manufacturers an ID number and products a unique item number, with a check digit added for verification. When scanned, the reader transfers the barcode number to a computer system that retrieves stored data about the item like price and inventory levels. Barcodes help businesses operate more efficiently by automating data collection and reducing errors compared to manual tracking.
Barcode or Barcode Reader is an optical machine-readable representation of data relating to
the object to which it is attached. Originally barcodes systematically represented data by varying
the widths and spacing of parallel lines, and may be referred to as linear or one-dimensional
(1D). Later they evolved into rectangles, dots, hexagons and other geometric patterns in two
dimensions (2D). Although 2D systems use a variety of symbols, they are generally referred to
as barcodes as well. A barcode reader uses a photo sensor to convert the barcode into an
electrical signal as it moves across a barcode. Mechanism: The scanner then measures the
relative widths of the bars and spaces, translates the different patterns back into regular
characters, and sends them on to a computer or portable terminal. If we use barcodes, we get
online information without giving any data to the computer. If the manufacturing company
produces large quantity of products, then these barcodes are very useful.
A slide that contains complete information about barcodes.
Topics Covered:-
Introduction
Barcode Types and Uses
Bar-coding terminology
Barcode scanners
Advantages
Conclusion
This document provides an overview of barcode technology. It defines a barcode as a machine-readable visual representation of data that varies the widths and spacings of parallel lines. Barcodes store product information like manufacturing date and price. They work by being scanned by barcode readers that convert the patterns into binary code for computers. Barcodes are widely used for inventory management in stores and healthcare settings to identify patients and documents. They provide benefits like fast and accurate data collection but require special scanning devices and are susceptible to damage.
The document is a technical report on barcodes and barcode readers submitted by Suryadip Basu to fulfill requirements for a course. It includes an abstract, table of contents, and 5 chapters discussing the history of barcodes, how they work, types of barcodes and scanners, and applications. The report was supervised by two professors and certifies that Suryadip conducted the work and wrote the report from January to March 2014.
Made PowerPoint presentation on QR codes for Advanced Microsoft Computer Applications(which was shown at GTGA) (GA Technology Educators Conference in November 2013). It runs all on its own all a person has to do is start it from the beginning, sit back, and enjoy.
This document presents a seminar on barcode technology. It defines what a barcode is, provides a brief history of barcodes, and describes the main types of barcodes. It then explains how barcodes work, including the different parts of a barcode and how scanners read barcodes. The document outlines some common applications of barcodes and lists advantages and disadvantages. It concludes by thanking the audience and offering to answer any questions.
Mr. Woodland and Silver began developing barcodes at Drexel University after a supermarket chain asked for help improving inventory tracking. Inspired by Morse code, Woodland drew lines of different thicknesses in the sand, which led to the Universal Product Code barcode. Barcodes are now used worldwide to automate identification and tracking of products, shipments and other items. They increase productivity and reduce errors compared to manual data entry.
Advanced smart credential cum unique identification and recognition systemIAEME Publication
This document summarizes a proposed Advanced Smart Credential cum Unique Identification and Recognition System (ASCUIRS). The system aims to generate a unique image from a unique identification number to map products or inventory items. It involves the following key elements:
1. A graphical user interface to enter inventory information and generate unique IDs.
2. A modified DES encryption algorithm to encrypt unique IDs before converting them to data matrix images.
3. A second algorithm to encode encrypted IDs and generate unique data matrix images for printing/publishing.
4. Storing inventory records with associated unique IDs in a database.
5. Generating data matrix images, publishing them, and capturing the images to map back to database
This document provides an overview of barcode and QR code technology. It discusses that barcodes store data in linear/1D format while QR codes store data in 2D, allowing it to hold more information. The document outlines the basic components and workings of barcodes and QR codes, their advantages like unique identification and accuracy, and applications in areas like libraries, laboratories, and industry. QR codes in particular can be scanned by any smartphone and are commonly used now for linking to URLs and automated text/SMS.
Barcode technology was invented in 1948 by Bernard Silver at Drexel University to provide a rapid and efficient way to represent data relating to objects. It works by using varying widths and spacings of parallel lines that can be read by barcode readers. The first barcodes used ultraviolet ink but it faded too easily. Later, barcodes improved to include two-dimensional codes and are now widely used for retail, warehouses, shipping and more to automate data collection. Barcodes store detailed product information accurately and reduce errors compared to manual entry. While they provide benefits, barcodes can be damaged or systems can fail, requiring repairs.
Barcodes have been used in retail since the 1970s to automate processes like checkout and inventory tracking. There are different types of barcodes like numeric, alphanumeric, and 2D barcodes. Barcode readers scan the black and white bars and spaces and translate them into numbers or characters. This allows retailers to more efficiently manage inventory, reduce errors, gain insights from sales data, and lower costs overall. While barcodes provide many benefits, they also have drawbacks like high upfront costs and needing maintenance of barcode labels.
QR codes are two-dimensional barcodes that can store numeric, alphanumeric, and byte/binary data. They were created in 1994 and can be read by camera phones. QR codes have error correction capabilities and can store up to 7,000 characters. They are used for various applications including product tracking, mobile payments, and education. Encryption is needed for sensitive QR code data. Overall, QR codes provide an efficient way to encode and link large amounts of information for many different uses.
This document discusses barcode technology. It provides definitions of barcodes as automatic identification technologies that encode information in dark bars and white spaces. Barcodes are used to accurately track and identify items. Common uses of barcodes include tracking inventory in warehouses and retail stores. There are two main types of barcodes: linear barcodes and 2D barcodes. Barcode scanners are used to read barcodes and input the encoded data into computer systems. Benefits of barcodes include increased accuracy, automation, and productivity. Potential disadvantages include system failures causing delays and issues reading damaged or poor quality barcodes.
The document discusses barcode technology and QR codes. It defines a barcode as a predefined format of dark and white spaces that can contain specific information to allow real-time data collection. There are two main types of barcodes: linear and 2D barcodes. QR codes are a type of 2D barcode that can store more information and be read quickly by camera devices. Barcodes and QR codes provide benefits like cost efficiency, accuracy, and linking digital and physical items, but have disadvantages like requiring coding of data and system reliance.
Dhananjay Prajapati presented on bar codes. The document discussed the history of bar codes from their invention in 1949 to widespread adoption in the 1970s. It also covered different types of bar codes like linear and 2D codes, as well as bar code scanning technologies and applications in inventory control, shipping, retail, and healthcare. Benefits of bar codes included accuracy, labor savings, and real-time data collection.
The document discusses the history and development of barcoding technology from its origins in the 1930s to modern applications. It covers the key aspects of barcodes including their structure, components, types, standards, how they work, uses in various industries like retail and healthcare, and advantages/disadvantages. Barcodes have become ubiquitous in tracking inventory and streamlining operations due to their ability to automatically identify products. The technology continues to evolve and be applied in new ways.
it tells about what is barcodes, version of barcodes, representation of barcode, working principle of barcode ,advantage and disadvantage of barcode and application of barcode
Automatic data capture technologies allow data to be directly entered into computer systems without manual keyboard entry. This includes barcodes, RFID, smart cards, and biometrics. Barcodes are the most widely used method and come in linear and 2D formats. They provide accuracy, time savings over manual entry, and reduce labor costs. Barcodes are scanned using contact or non-contact readers and printed using technologies like dot matrix, inkjet, thermal, and laser printing. Two dimensional barcodes store data in a stacked or matrix format to encode more information in the same space as linear barcodes.
This document discusses barcode technology. It provides an overview of what a barcode is, the history and types of barcodes. It describes how barcodes work by using patterns of bars and spaces to represent data that is scanned by barcode readers. The document outlines common applications of barcodes in industries like retail and libraries. It discusses the advantages of barcodes like low cost and accuracy, and disadvantages like potential problems from damaged or scratched barcodes.
Barcode and RFID technology are identification tools. Barcodes use visual patterns that are scanned to represent data, while RFID uses radio waves to track tags attached to objects. RFID provides advantages like greater security, distance reading and updating capabilities compared to barcodes. However, RFID technology is generally more expensive than barcodes. Both technologies have various applications in areas like member identification, circulation, and stock verification in libraries.
Barcodes are machine-readable representations of data attached to objects to identify them. They work by having black bars and white spaces scanned by a reader that converts the pattern into a number linked to information about the item. Barcodes are generated by assigning manufacturers an ID number and products a unique item number, with a check digit added for verification. When scanned, the reader transfers the barcode number to a computer system that retrieves stored data about the item like price and inventory levels. Barcodes help businesses operate more efficiently by automating data collection and reducing errors compared to manual tracking.
Barcode or Barcode Reader is an optical machine-readable representation of data relating to
the object to which it is attached. Originally barcodes systematically represented data by varying
the widths and spacing of parallel lines, and may be referred to as linear or one-dimensional
(1D). Later they evolved into rectangles, dots, hexagons and other geometric patterns in two
dimensions (2D). Although 2D systems use a variety of symbols, they are generally referred to
as barcodes as well. A barcode reader uses a photo sensor to convert the barcode into an
electrical signal as it moves across a barcode. Mechanism: The scanner then measures the
relative widths of the bars and spaces, translates the different patterns back into regular
characters, and sends them on to a computer or portable terminal. If we use barcodes, we get
online information without giving any data to the computer. If the manufacturing company
produces large quantity of products, then these barcodes are very useful.
A slide that contains complete information about barcodes.
Topics Covered:-
Introduction
Barcode Types and Uses
Bar-coding terminology
Barcode scanners
Advantages
Conclusion
This document provides an overview of barcode technology. It defines a barcode as a machine-readable visual representation of data that varies the widths and spacings of parallel lines. Barcodes store product information like manufacturing date and price. They work by being scanned by barcode readers that convert the patterns into binary code for computers. Barcodes are widely used for inventory management in stores and healthcare settings to identify patients and documents. They provide benefits like fast and accurate data collection but require special scanning devices and are susceptible to damage.
The document is a technical report on barcodes and barcode readers submitted by Suryadip Basu to fulfill requirements for a course. It includes an abstract, table of contents, and 5 chapters discussing the history of barcodes, how they work, types of barcodes and scanners, and applications. The report was supervised by two professors and certifies that Suryadip conducted the work and wrote the report from January to March 2014.
Made PowerPoint presentation on QR codes for Advanced Microsoft Computer Applications(which was shown at GTGA) (GA Technology Educators Conference in November 2013). It runs all on its own all a person has to do is start it from the beginning, sit back, and enjoy.
This document presents a seminar on barcode technology. It defines what a barcode is, provides a brief history of barcodes, and describes the main types of barcodes. It then explains how barcodes work, including the different parts of a barcode and how scanners read barcodes. The document outlines some common applications of barcodes and lists advantages and disadvantages. It concludes by thanking the audience and offering to answer any questions.
Mr. Woodland and Silver began developing barcodes at Drexel University after a supermarket chain asked for help improving inventory tracking. Inspired by Morse code, Woodland drew lines of different thicknesses in the sand, which led to the Universal Product Code barcode. Barcodes are now used worldwide to automate identification and tracking of products, shipments and other items. They increase productivity and reduce errors compared to manual data entry.
Advanced smart credential cum unique identification and recognition systemIAEME Publication
This document summarizes a proposed Advanced Smart Credential cum Unique Identification and Recognition System (ASCUIRS). The system aims to generate a unique image from a unique identification number to map products or inventory items. It involves the following key elements:
1. A graphical user interface to enter inventory information and generate unique IDs.
2. A modified DES encryption algorithm to encrypt unique IDs before converting them to data matrix images.
3. A second algorithm to encode encrypted IDs and generate unique data matrix images for printing/publishing.
4. Storing inventory records with associated unique IDs in a database.
5. Generating data matrix images, publishing them, and capturing the images to map back to database
Advanced smart credential cum unique identification and recognition systemIAEME Publication
This document discusses advanced smart credential and unique identification recognition systems (ASCUIRS) as an alternative to barcode and QR code technologies. It provides an overview of existing barcode and QR code systems, including their basic structure and advantages/disadvantages. The document proposes that ASCUIRS will combine unique identification numbers with unique images to uniquely identify products or users, while also serving as a security system. Further details of ASCUIRS are not provided.
Barcodes are visual patterns of lines and spaces that encode information and can be scanned by barcode readers. One-dimensional (1D) barcodes encode data in parallel lines of varying widths and spacing, while two-dimensional (2D) barcodes use geometric patterns arranged horizontally and vertically to encode more data in a smaller space. Common 1D barcode types include UPC, EAN, Code 39, Code 128, and ITF, which are used across industries like retail, automotive, and logistics. Popular 2D barcodes include QR codes and DataMatrix codes, used for tracking, marketing, and labeling small items.
Barcodes have revolutionized the retail industry by providing an efficient and accurate way to track and manage products. These simple yet powerful symbols encode essential information about items, such as prices and product details. When scanned at the checkout counter, barcodes streamline the payment process, reducing human error and saving time for both customers and retailers. Moreover, they enable precise inventory management, helping stores maintain the right stock levels and avoid overstock or shortages. Barcodes play a crucial role in enhancing the overall shopping experience and contributing to the operational efficiency of the retail sector.
In this PPT, you will learn what is a barcode, benefits of getting a barcode & the documents required for the same. For obtaining a barcode, reach out to deAsra for professional services: https://www.deasra.in/our-services/professional-services/?utm_source=referral&utm_medium=slideshare
How do barcodes work? A Complete Guide Barcode KnowledgeBarcode Live
How do barcodes work? It is difficult for those who are new to running a retail business to grasp how barcodes function and what role it serves. Check out this post, we have it covered!
Regulatory aspect of barcode technology ( Introduction, FDA rule, Benefits of barcode, terminology, Symbologies, Types of barcode, Pharmacode, Applications of barcode, Types of barcode readers,Pharmaceutical)
This presentation discusses various identification systems used in packaging, focusing on barcodes and RFID. It describes how barcodes work by using a machine-readable representation of data that can be scanned by optical readers. Common barcode types include linear barcodes like UPC and 2D codes like QR codes. RFID uses radio transponders to automatically identify objects without line of sight scanning. Barcodes are widely used now but RFID may provide advantages in the future with contactless identification of multiple items simultaneously.
Qr codes vs. barcodes in inventory trackingMRPeasy
When looking for ways to track your inventory, you will undoubtedly arrive at the dilemma of whether you should use barcodes or QR codes. Even though the basic concept behind the two options is the same, there are notable differences between the two.
Serialized track and trace. Is it a requirement you need to conform to or need?Q Data USA
The document discusses serialized track and trace and solutions to business problems. It provides an agenda for a webinar on serialized track and trace, including vocabulary, standards, components, and regulations. It then covers various topics in depth, such as chain of custody, unique identification standards like GTIN and RFID, and SAP solutions for implementing auto-ID and item serialization.
This topic is related to manufacturer or Entrepreneur who need the information related to bar coding system. This topic also covers the bar coding regulation for micro small and medium enterprise also.
International Barcodes Knowledge You Should UnderstandBarcode Live
A shop often needs individual barcodes. If not, you may get stuck. Similarly, international barcodes are vital in global distribution. Know more about it here.
Read more: https://barcodelive.org/international-barcodes
Barcodes provide benefits for both businesses and consumers by enabling fast and accurate identification of products. For businesses, barcodes streamline processes like inventory tracking and replenishment by allowing automatic transmission of sales data to suppliers. Barcodes also increase productivity by allowing data to be scanned 20 times faster and with 20,000 times fewer errors than manual data entry. There are many types of barcodes used in different industries and applications, with features tailored to the amount and type of data needed. Businesses can implement basic barcode systems using scanners, decoders, computers, and printers to automate tasks like data capture.
Indian Barcode Corporation is a manufacturer and supplier of barcodes, barcode printers, barcode scanners, labels, tags, ribbons and RFID solutions. It provides various types of barcode printers such as direct thermal, thermal transfer, industrial, ferrule, card and line matrix printers. It also offers barcode scanners including handheld, Bluetooth and document scanners. Additionally, it supplies labels, tags, ribbons and RFID products and provides barcode and RFID solutions for various industries.
Barcode Labels manufacturer, Barcode printers distributors, barcode ribbon manufacturer in India, Water bottle label manufacturer, jewellary label manufacturer, taffeta rolls mnaufacturer in India ,
TSC service center
TSC barcode Label Manufacturer
TSC ribbons
Fargo Authorized service center In India
Zebra Authorized Partner for barcode and card printers
Mindeo Scanners partners
Citizen Printers partners and service center
printer head manufacturer in India
printer head for zebra , printer head for tsc
printer head for argox printers
argox printers in India
The 10 Most Influential Leaders Guiding Corporate Evolution, 2024.pdfthesiliconleaders
In the recent edition, The 10 Most Influential Leaders Guiding Corporate Evolution, 2024, The Silicon Leaders magazine gladly features Dejan Štancer, President of the Global Chamber of Business Leaders (GCBL), along with other leaders.
How MJ Global Leads the Packaging Industry.pdfMJ Global
MJ Global's success in staying ahead of the curve in the packaging industry is a testament to its dedication to innovation, sustainability, and customer-centricity. By embracing technological advancements, leading in eco-friendly solutions, collaborating with industry leaders, and adapting to evolving consumer preferences, MJ Global continues to set new standards in the packaging sector.
Navigating the world of forex trading can be challenging, especially for beginners. To help you make an informed decision, we have comprehensively compared the best forex brokers in India for 2024. This article, reviewed by Top Forex Brokers Review, will cover featured award winners, the best forex brokers, featured offers, the best copy trading platforms, the best forex brokers for beginners, the best MetaTrader brokers, and recently updated reviews. We will focus on FP Markets, Black Bull, EightCap, IC Markets, and Octa.
How to Implement a Real Estate CRM SoftwareSalesTown
To implement a CRM for real estate, set clear goals, choose a CRM with key real estate features, and customize it to your needs. Migrate your data, train your team, and use automation to save time. Monitor performance, ensure data security, and use the CRM to enhance marketing. Regularly check its effectiveness to improve your business.
The Genesis of BriansClub.cm Famous Dark WEb PlatformSabaaSudozai
BriansClub.cm, a famous platform on the dark web, has become one of the most infamous carding marketplaces, specializing in the sale of stolen credit card data.
Structural Design Process: Step-by-Step Guide for BuildingsChandresh Chudasama
The structural design process is explained: Follow our step-by-step guide to understand building design intricacies and ensure structural integrity. Learn how to build wonderful buildings with the help of our detailed information. Learn how to create structures with durability and reliability and also gain insights on ways of managing structures.
At Techbox Square, in Singapore, we're not just creative web designers and developers, we're the driving force behind your brand identity. Contact us today.
Brian Fitzsimmons on the Business Strategy and Content Flywheel of Barstool S...Neil Horowitz
On episode 272 of the Digital and Social Media Sports Podcast, Neil chatted with Brian Fitzsimmons, Director of Licensing and Business Development for Barstool Sports.
What follows is a collection of snippets from the podcast. To hear the full interview and more, check out the podcast on all podcast platforms and at www.dsmsports.net
B2B payments are rapidly changing. Find out the 5 key questions you need to be asking yourself to be sure you are mastering B2B payments today. Learn more at www.BlueSnap.com.
Unveiling the Dynamic Personalities, Key Dates, and Horoscope Insights: Gemin...my Pandit
Explore the fascinating world of the Gemini Zodiac Sign. Discover the unique personality traits, key dates, and horoscope insights of Gemini individuals. Learn how their sociable, communicative nature and boundless curiosity make them the dynamic explorers of the zodiac. Dive into the duality of the Gemini sign and understand their intellectual and adventurous spirit.
At Techbox Square, in Singapore, we're not just creative web designers and developers, we're the driving force behind your brand identity. Contact us today.
Discover timeless style with the 2022 Vintage Roman Numerals Men's Ring. Crafted from premium stainless steel, this 6mm wide ring embodies elegance and durability. Perfect as a gift, it seamlessly blends classic Roman numeral detailing with modern sophistication, making it an ideal accessory for any occasion.
https://rb.gy/usj1a2
Digital Marketing with a Focus on Sustainabilitysssourabhsharma
Digital Marketing best practices including influencer marketing, content creators, and omnichannel marketing for Sustainable Brands at the Sustainable Cosmetics Summit 2024 in New York
[To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations]
This presentation is a curated compilation of PowerPoint diagrams and templates designed to illustrate 20 different digital transformation frameworks and models. These frameworks are based on recent industry trends and best practices, ensuring that the content remains relevant and up-to-date.
Key highlights include Microsoft's Digital Transformation Framework, which focuses on driving innovation and efficiency, and McKinsey's Ten Guiding Principles, which provide strategic insights for successful digital transformation. Additionally, Forrester's framework emphasizes enhancing customer experiences and modernizing IT infrastructure, while IDC's MaturityScape helps assess and develop organizational digital maturity. MIT's framework explores cutting-edge strategies for achieving digital success.
These materials are perfect for enhancing your business or classroom presentations, offering visual aids to supplement your insights. Please note that while comprehensive, these slides are intended as supplementary resources and may not be complete for standalone instructional purposes.
Frameworks/Models included:
Microsoft’s Digital Transformation Framework
McKinsey’s Ten Guiding Principles of Digital Transformation
Forrester’s Digital Transformation Framework
IDC’s Digital Transformation MaturityScape
MIT’s Digital Transformation Framework
Gartner’s Digital Transformation Framework
Accenture’s Digital Strategy & Enterprise Frameworks
Deloitte’s Digital Industrial Transformation Framework
Capgemini’s Digital Transformation Framework
PwC’s Digital Transformation Framework
Cisco’s Digital Transformation Framework
Cognizant’s Digital Transformation Framework
DXC Technology’s Digital Transformation Framework
The BCG Strategy Palette
McKinsey’s Digital Transformation Framework
Digital Transformation Compass
Four Levels of Digital Maturity
Design Thinking Framework
Business Model Canvas
Customer Journey Map
Digital Transformation Frameworks: Driving Digital Excellence
Barcodes (WHW) What ? How ? Why ?
1. Barcode in Supply Chain ( WHW )
What ? How ? Why ?
Arie Terner
TAV College / Canada / Montreal 2015
2. Mr. Woodland and Silver, who were teaching at Drexel University in Philadelphia, began the
work that led to the bar code after the head of a supermarket chain asked for help in
developing a better way to keep track of inventory. A former Boy Scout, Woodland wondered if
Morse Code could be used to track inventory, and began drawing lines of different thickness in
the sand during a visit to Miami in 1948. The code that eventually emerged is now known as
Universal Product Code (UPC) , and Woodland won the National Medal of Technology in 1992.
History of Barcodes
Joseph Norman Woodland
3. Why use barcodes?
• From 1960s, barcodes were used in industrial work environments.
Some of the early implementations of barcodes included the ability
identify transport and manufacture domains.
• From 1970s, common barcodes started appearing on grocery
shelves. To automate the process of identifying grocery items, UPC
barcodes were placed on products.
• From 2000s barcodes are just about
everywhere and are used for identification
in almost all types of business.
4. • When barcodes are used in the business process, procedures are
automated to increase productivity and reduce human error.
• Whenever there is a need to accurately identify or track something,
bar-coding should be used. For example, in a data entry work
environment, workers may be required to enter an enormous amount
of data into a customer database system.
• Instead of manually typing a customer identification number into a
database, if the information is contained in a barcode, a data entry
operator may scan it in. This would increase automation and reduce
human error.
Why use barcodes?
5. Advantages of Barcodes
Fast and Reliable Data Collection
Reduced Revenue Losses Resulting from Data Collection Errors
Improved Management and Better Decision Making
10,000 Times better Accuracy
Reduced Labor Costs
Necessary Inventory Levels
Faster Access to Information
Point of Sale
Cost Savings
Customer Satisfaction
Automated Reordering
Better Decision Making
Inventory Control
Secured Access
Time and Attendance
Quality Control
Packaging / Labeling
6. Drawbacks of Barcode
Damaged Labels / Scratched or crumpled barcodes may cause
problems
High Price Equipment Requirements (Printer, Reader, etc.)
System Failure may cost more delays
Training ( Software usage )
7. What is a 1D or 2D barcode?
A barcode is an optical machine-readable representation of
data, which shows data about the object to which it
attaches.
1D Barcode (UPC)
2D Barcode (QR)
8. Types of Barcode
1D - Numeric-only barcode (Linear Barcode):
EAN-13 , EAN-8 , UPC-A, UPC-E , Code 11 ,PostNet
A barcode that encodes data only in one dimension.
Data is encoded in the widths of the bars and spaces and
no data is encoded in the lengths of the bars.
This barcode found on many retail products is a common
linear barcode that you may be familiar with.
9. Types of Barcode
2D - Dimensional Barcode
The need for ever increasing amounts of information in
smaller spaces has lead to more compact and higher data
density symbologies found in two-dimensional or stacked
barcodes.
Each type allows more information to be stored in a smaller
amount of space.
2D- Alphanumeric barcodes: Code 39 ,Code 93 (Canada
Post),Code 128, LOGMARS
2D - Dimensional barcodes: PDF417 , DataMatrix,
Maxicode, QR Code
10. Types of Barcode
Industry Standards for Barcodes and Labels:
Bookland EAN encodes ISBN numbers, ISSN and the
SISAC Barcode, OPC Optical Industry Association barcode ,
Co-Operative labels
11. EAN Barcode
European Article Numbering (EAN)
international retail product code
EAN-13 or EAN-8 are two different versions of EAN bar codes, which can encode 13 and
8 digit numbers.
The EAN-8 code was introduced for use on small packages where an EAN-13 barcode
would be too large.
All other countries aside from the United States utilize the EAN bar code for
identification on retail goods.
USA use the UPC code for the same purposes, but this is only 12 digits long.
EAN-13 EAN-8
18. `
Google search:
Universal Barcode Maker
Barcode Generator
Inventory Software
Barcode Software
Barcode Creator
Free or Software license
How to Create Manual/Personal Barcode for your business?
23. GS1 (Global Standard ) Organization
GS1 is a neutral, not-for-profit, international organization that develops and
maintains standards for supply and demand chains across multiple sectors.
With local Member Organizations in over 110 countries, GS1 works with
communities of trading partners, industry organizations, governments and
technology providers and responds to their business needs through the
adoption and implementation of global standards.
GS1 has over a million member companies across the world, executing more
than five billion transactions daily using GS1 standards.
24. GS1 (Global Standard ) Organization
Most companies initially come to GS1 to get a bar code number for their
products. However, GS1 standards provide a much wider framework for
supply chain visibility. The current architecture of GS1 standards is as follows:
Identify: Standards for the identification of items, locations, shipments,
assets, etc.. and associated data
Capture: Standards for encoding and capturing data in physical data carriers
such as barcodes and RFID tags
Share: Standards for sharing data between parties
GS1 identification standards do not provide identification of country of origin
for a given product. Member companies may manufacture products anywhere
in the world.
25. Barcodes – What is GS1-128 ?
GS1-128 symbology is used to encode trade item data for
logistics units such as cartons, cases, and pallets that are
not intended to pass through retail point-of-sale (POS). The
use of this symbology supports fast and accurate tracking
of inventory and other specific data in the supply chain. •
GS1-128 symbology is used to uniquely identify trade
items, logistics units, and returnable assets in the supply
chain. The symbology not only encodes trade item data, but
provides a method for encoding and sharing a large variety
of different specific data types defined by the GS1 System,
such as the Serial Shipping Container Code (SSCC),
Best Before Date, Batch / Lot Number, and Serial
Number.
26. Barcodes – What is GS1-128 ?
Example (01)
GTIN Prefix GTIN
(17) Expiry Expiry 01/01/2010
(10) Batch Prefix Batch Number
(21) Serial No Serial Number
28. List of GS1 country codes
The GS1 Prefix, the first three digits, usually identifying the national GS1 Member
Organization to which the manufacturer is registered
29. Fake and Authentic: How can I know a parfum is fake
or authentic via QR code or barcode on the box?
Authentic
32. No battery in tag; all power comes from reader Carrier RF Wave •
Possible to build a battery into the tag •
Increased complexity, size and cost • Improved performance (range) & functionality
Advantages:
‘Simultaneous’ identification
Robust, reasonable operating distance
No line of sight; automated reads
Disadvantages:
× Not as cheap as some alternatives
× Some problematic items
THE FUTURE OF BARCODE TECHNOLOGY – RFiD
Radio-Frequency IDentification