Mobile Computers / Handheld Computers

Barcodes, 2D codes, and characters on product slips, instruction sheets, products, and parts can be instantaneously read, converted into data, and recorded.

It is also possible to record additional information such as the time of reading, which greatly improves the efficiency of warehousing and process management.
Some types of handheld computers can use optical character recognition (OCR) to acquire characters, such as serial numbers and lot numbers directly marked on products and parts, as well as expiration dates. This is effective for both reducing man-hours and preventing careless mistakes during the management of products and parts with no barcodes / 2D codes, which were impossible through visual check and manual entry.

After reading one code, handheld computers can read the information linked with the code automatically or can export information automatically to a specified row/column in Excel or other software.

The data read with handheld computers are saved automatically. To make it easier to collect data from each transaction, the saving format can be determined in advance, which reduces the number of work-hours spent on data management.
Some operation-specific applications may require labor and cost for programming. Since handheld computers allow the setting of business applications without programming, they can save development costs and the time and labor required before the start of the operation.

Handheld computers capable of wireless connection allow readout data to be applied to the system in real-time.

With paper-based aggregation, the overall results can be checked only after operations such as inventory and warehousing are complete and the data is entered into a PC. On the other hand, with wireless type handheld computers, the results can be transmitted as the work is being performed, so the status can be checked in real-time. This enables management with no time lag, which was impossible through paper-based aggregation. This prevents careless mistakes when data is created from paper or inventory is made by several workers. It also prevents mixed-up information in workplaces where the inventory changes frequently.

Typical handheld computer usage examples were explained in “Handheld Computer System Installation Applications,” but this section introduces actual application examples regarding automobiles / transport equipment in the manufacturing industry. Actual examples will be used to explain the problems in various processes at manufacturing sites for automobiles / transport equipment and the advantages provided by installing handheld computers in said sites.

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This section introduces actual application examples regarding electrical / electronic devices and semiconductors in the manufacturing industry. Actual examples will be used to explain the problems in various electrical / electronic device and semiconductor processes and the advantages provided by installing handheld computers.

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This section introduces actual application examples regarding food, medicine, and cosmetics in the manufacturing industry. Actual examples will be used to explain the problems in various food, medicine, and cosmetic processes and the advantages provided by installing handheld computers.

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This section introduces handheld computer application examples in the logistics industry. Actual examples will be used to explain the problems in various processes in the logistics industry and the advantages provided by installing handheld computers.

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This section introduces handheld computer application examples in the retail industry. Here we explain handheld computer application examples at specialized stores such as clothing stores within the retail industry.

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This section introduces handheld computer application examples in the retail industry. Here we will explain application examples of volume retailers, online grocery stores, and other parts of the retail industry that are comparatively large scale and handle a large number of products.

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The change in manufacturing from production of large lots of a narrow variety of products to production of small lots of a wide variety of products has led to an increase in the hassle involved in inventory management. This is a major problem not only for the manufacturing industry but also for the logistics industry, which transports products, and the retail industry, which sells products to consumers. The key items used in solving this problem are barcodes, 2D codes, and handheld computers. This section introduces items such as basic knowledge pertaining to inventory management, the flow for installing handheld computers, the way to use handheld computers, and the advantages of doing so.

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The term picking is mainly used in logistics work and refers to the collecting and shipping of products stored in warehouses and distribution centers. In recent years, the load on picking has greatly increased due to the increased demand for online shopping. Handheld computers have been installed in the logistics industry from early on. This section discusses picking work as a typical application, introducing items such as basic knowledge pertaining to picking, the flow for installing handheld computers, the way to use handheld computers, and the advantages of doing so.

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Traceability is the concept of making it possible to track a product from procurement of raw materials to production, consumption, or disposal in order to clarify when, where, and by whom a given product was created. It has been carried out in the manufacturing industry from a long time ago for quality management and quality assurance but has become common in the food and pharmaceutical industries due to increased consciousness of safety in recent years. This section introduces items such as basic knowledge pertaining to traceability, the flow of traceability using handheld computers, and the advantages of doing so.

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Mechanisms for detecting or preventing the generation of defects caused by careless mistakes, which are unavoidable at manufacturing worksites, is referred to as pokayoke (error-proofing). This section introduces items such as basic knowledge pertaining to careless mistakes and pokayoke (error-proofing), the way to use a handheld computer system to perform pokayoke (error-proofing) and the advantages of doing so, how to install handheld computers, and the flow for operation of handheld computers.

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Handheld code readers are a type of barcode reader specialized just for reading (scanning) codes. The readout data should be processed with a connected PC, so handheld code readers cannot be used separately from a PC and carried around like handheld computers.
On the other hand, handheld computers have an LCD screen, CPU, and memory built into the body. Programs can be embedded so that not only can they read data but they can also perform other required processing such as checking (displaying), matching, and saving data. Programs can be rewritten depending on the usage or purpose of the work. For example, you can set which of several information pieces obtained from one reading is to be entered automatically into which rows/columns in Excel.

The installation requires a variety of equipment such as a PC or a server to communicate with during operation, a battery that supplies the power and its charger, and a printer used to output data (when required). It is also necessary to develop software to provide system functions and operability that match the usage environment and the purpose. Examples of issues handled by the software include how to aggregate and process data or how to display the aggregated data on a PC screen.
On the other hand, some handheld computers are designed for simple operations by adopting a common platform, using dedicated software to create business programs quickly, and aggregating data as intended with Excel. Hence, it is important to consider the hardware, software, and other items suitable for the purpose, scale, and existing system, prior to installation.

The different handheld computer models have a wide variety of functions to match varying industries and applications. For example, to establish communication with a system within a large warehouse or store, select a type with a built-in wireless LAN interface. To perform work in a limited space, select a Bluetooth-equipped model.
There are cases in which recent inexpensive smartphones are used instead. This, however, may lead to expensive application development costs. Handheld computers are designed specifically for business purposes so that they can meet various needs in workplaces. Check the specifications such as the reading distance, speed, and accuracy for various codes and optical character recognition (OCR), as well as shock resistance, environmental resistance, and continuous usage time. It is also important to confirm the compatibility, availability, and whether technical support can be obtained or not.

Equipping an operator with the appropriate mobile computer enables them to speed up data collection for many business-critical applications (receiving, storage, inventory, picking, poka-yoke, traceability, shipping, etc.) by minimizing unnecessary trips to a work terminal. Utilizing barcode scanning, where possible, offers a nearly instantaneous data capture method over manual entry or pen & paper systems. Additionally, mobile computers can be connected to your business system to provide operators with immediate feedback and work instructions while they perform their responsibilities.
Adopting the right mobile computer device for your application should cut down on extraneous material and employee movement, lessen the frequency or severity of errors caused by mistakes, and increase overall operator productivity.

Companies of all industries rely on various systems to aid with core business operations. The nature and size of the business often dictate the characteristics of the ideal business system, by functionality and infrastructure. Data system technology is continuously evolving and a mobile computer device with a modern platform can adapt to fit the infrastructure of current or dated systems. From a technical standpoint, mobile computers can integrate into these systems via WLAN (WiFi) configurations with supported web browsers, telnet protocol, and remote desktop protocol (RDP), as well as Bluetooth connection, batch data transfer using a wired connection, or an application-specific embedded “App” on the mobile computer. Consult with your business system support team and mobile computer product expert to select the most effective solution.

To maximize the value of your mobile computer technology, consider the specifications that will best fit your operators’ needs. Device evaluation should consider factors that prioritize ease-of-use for the intended use of the mobile computer model. A few of these factors include the device’s screen size, form factor, battery capacity, and barcode scanning specifications. Work with a product expert to customize your mobile computer’s settings to the best possible configuration, such as restricting access to non-approved work applications on the device or optimizing the barcode scanning performance. Additionally, consider the desired lifespan of the mobile computer to minimize total cost of ownership. Review the mobile computer’s durability specifications (max. drop height, tumble rating, and ingress protection rating) and available maintenance packages with the manufacturer to protect your investment. Lastly, train your operators on proper usage.