Bar-code Tracking Systems Overview


Book Description

Describes the basics of bar-code systems that can be used to maintain inventories or track pesticides, equipment, tree-marking paint, or other materials. Bar codes use a series of vertical black lines and spaces to record data. The standard used to convert data to a bar code is called a symbology. More than 250 symbologies are in use. Forest Service users should consider using symbology code 128, the standard used in the shipping industry. It can encode all 128 ASCII characters (lower-case and capital letters, numbers, punctuation marks, and other symbols) and can be used to create high-, medium-, and low-density bar codes. The label lines are closely spaced in high-density bar codes, allowing more data to be stored, but the label might not be read as reliably. Setup and the initial inventory entry are usually the most time-consuming steps in establishing a bar-code system. A bar code might represent the identification of a container of pesticide. Software, usually some form of database, stores additional information about the container of pesticide, such as when it was purchased, how much the container holds, how much has been used, and when the container was disposed of. The bar code would be placed on the pesticide container when it was received. Each time some of the pesticide was used, a scanner would record the bar code and the user would enter appropriate information about the use. Such a system would allow careful tracking of the use of pesticides and the software would allow the user to prepare periodic reports. This Tech Tip considers three sample uses of bar-code systems by Forest Service employees: tracking tools, inventorying chemicals and material safety data sheets, and reporting on pesticides. An accompanying report, Assembling a Bar-Code Tracking System (0271-2834-MTDC), has more detailed information that can be used to design a bar-code system.




Assembling a Bar-code Tracking System


Book Description

Provides detailed information for setting up a bar-code tracking system. The report includes descriptions of bar-coding equipment, data collection and storage software, methods for setting up and running a bar-code system, sources of equipment, tips for using a bar-code system, and other useful information. The report's companion publication, Bar-Code Tracking System Overview (0271-2333-MTDC), has general information about how a bar-code system works.




Logistics Systems: Design and Optimization


Book Description

In a context of global competition, the optimization of logistics systems is inescapable. Logistics Systems: Design and Optimization falls within this perspective and presents twelve chapters that well illustrate the variety and the complexity of logistics activities. Each chapter is written by recognized researchers who have been commissioned to survey a specific topic or emerging area of logistics. The first chapter, by Riopel, Langevin, and Campbell, develops a framework for the entire book. It classifies logistics decisions and highlights the relevant linkages to logistics decisions. The intricacy of these linkages demonstrates how thoroughly the decisions are interrelated and underscores the complexity of managing logistics activities. Each of the chapters focus on quantitative methods for the design and optimization of logistics systems.







Advances in Patient Safety


Book Description

v. 1. Research findings -- v. 2. Concepts and methodology -- v. 3. Implementation issues -- v. 4. Programs, tools and products.







A Practical Introduction to Health Information Management


Book Description

Introducing the best one-step source of practical health information management guidance. In this text your students will find information they need to know for every key area of health information management -- information management standards and requirements ... clinical data systems ... computerized patient records ... confidentiality and security issues ... quality improvement ... telemedicine, people management issues ... and much more!




Pathology Informatics, An Issue of Surgical Pathology Clinics


Book Description

This issue of Surgical Pathology Clinics takes a departure from its presentation of Differential Diagnosis, Histopathology, Staging, and Prognosis of tumors in different anatomic sites. This special issue is devoted to topics in pathology informatics as they relate to the practice of surgical pathology. Topics include: Basics of Information Systems (Hardware, Software); Networks, Interfaces and Communications; Databases; Data Representation, Coding and Communication Standards; Laboratory Information Systems; Enhancing and Customizing Laboratory Information Systems to Improve/Enhance Pathologist Workflow; Laboratory Management and Operations; Specialized Laboratory Information Systems; Middleware and Laboratory Automation; Synoptic Reporting in Anatomical Pathology; Bar Coding and Tracking; Molecular Pathology Informatics; Informatics and Autopsy Pathology; Pathology Informatics and Project Management; Digital Imaging Basics; Use of Digital Images in Clinical Practice; Whole Slide Imaging; Telepathology; Mobile Technologies for the Surgical Pathologist; Image Analysis; Advanced Imaging Techniques; Healthcare Information Systems; Data Security and Reliability; Role of Informatics in Patient Safety and Quality Assurance; Role of Pathology Informatics in IT Leadership; Selection and Implementation of New Information Systems; Biomedical Informatics and Research Informatics; Training in Pathology Informatics; and Building Tools for the Surgical Pathologist: Next Generation Pathologist. Editor of this issue, Dr Anil Parwani, is Professor of Pathology and Biomedical Informatics and Director of Division of Pathology Informatics. Dr. Parwani is well known as expert in the area of Anatomical Pathology Informatics, which includes design of quality assurance tools, tissue banking informatics, clinical and research data integration and mining, synoptic reporting in anatomical pathology, clinical applications of whole slide imaging, digital imaging, telepathology, image analysis and lab automation and workflow processes, such as barcoding and voice recognition.




Transportation Security


Book Description

Insecure transportation systems are costing our worldwide mobility-based economy as much as 6% of GDP annually. The effectiveness of security measures vary widely. In the United States, depending on the mode of transportation, it ranges from "medium effectiveness for airports to "low effectiveness for maritime, rail, transit, and intermodal activities. Situational awareness and interoperability are lacking as we try to deal with both natural and man-made disasters. Regardless of the transport mode, improvements are essential if governments and corporations are to address security planning, response, and national preparedness. Transportation Security examines this problem in a comprehensive manner and addresses security-based technologies and solutions to minimize risk.* Covers air, sea, roadway, rail and public transport modes* Offers technological solutions for mobility based problems in planning, logistics and policy to improve security, combat terrorism and ensure national preparedness* Includes work of international experts & global examples related to transportation security




Knowledge-based Software Engineering


Book Description

JCKBSE aims to provide a forum for researchers and practitioners to discuss the latest developments in the areas of knowledge engineering and software engineering. Particular emphasis is placed upon applying knowledge-based methods to software engineering problems. This volume is a collection of contributions of authors from 8 different countries. The book covers a wide range of topics related to knowledge-based or automated software engineering. architecture of knowledge; software and information systems; requirement engineering; domain analysis and modelling; formal and semiformal specifications; knowledge engineering for domain modelling; data mining and knowledge discovery; automating software design and synthesis; object-oriented and other programming paradigms; knowledge-based methods and tools for software engineering, including testing, verification and validation; process management, maintenance and evolution, applied semiotics for knowledge-based software engineering; knowledge systems methodology; development tools and environments; practical applications and experience of software and knowledge engineering; information technology in control, design, production, logistics and management; enterprise modelling and workflow.