![]() ![]() In other words, with the Internet of Things, the physical world is becoming one big information system. IoT describes a world where just about anything can be connected and communicate in an intelligent fashion.A global infrastructure for the information society, enabling advanced services by interconnecting (physical and virtual) things based on existing and evolving interoperable information and communication technologies.The network of physical objects that contain embedded technology to communicate and sense or interact with their internal states or the external environment.The IoT links objects to the Internet, enabling data and insights never available before.Interested in learning more? Check out a post we wrote about the usefulness of IoT in manufacturing.Īnd, if fact there’s so many definitions of IoT, we’ve compiled a list of how top technology companies and publications define the term, thanks to A Non-Geek’s A-to-Z Guide to the Internet of Things. In terms of the manufacturing sector, the internet of things applies to remote monitoring and operations, predictive maintenance and smart asset management, and autonomous manufacturing. IoT – Internet of ThingsĪ hot buzzword in all types of industries, this term relates to a system of interrelated smart devices. ![]() For example, the Mingo platform has an HMI component with the operator interface we provide to machine operators to input data during the manufacturing process. This one is somewhat self-explanatory, but it’s the user interface that connects a human user to a machine. ![]() Accurately calculating and reporting finished goods inventory helps manufacturers prevent waste by producing too much, calculate profitability once finished goods have been sold or distributed, and improve the production process. In a manufacturing environment, finished goods are the products that have completed all stages of production are now ready to be distributed to customers. This is the amount of time a plant or particular cell, line, or machine is down, or off-line, and not producing any product. Check out the Cycle Time Formula resource for a deeper dive. For example, it is used by ERP and MES systems for scheduling, purchasing, and production cost, but is also a key component of calculating OEE. It is an essential manufacturing key performance indicator for a number of systems and other calculations. No acronym here, but cycle time is a very common phrase used in the manufacturing sector. If you’re making something out of metal and it has a really tight tolerance, for example if it needs to be perfectly flat, the CMM checks to make sure the measurements are in line with the standard. This ensures measurements are correct on a product. Most often in a u-shape, the cell is designed to facilitate shorter production times and increased efficiencies between each step. The term cell is used in the larger concept of cellular manufacturing which is when equipment is arranged in small increments, or a cell, to promote continuous flow production. In manufacturing, a bill of materials (BOM) is all of the materials and parts needed to complete a particular product. A manufacturing analytics platform can determine the availability of a machine by collecting and calculating downtime using alarms and signals from controls on the equipment and input from operators. This is the actual time a machine is available to produce a product and is given as a percentage of total planned production time. By mechanically moving the parts to the assembly work and moving the semi-finished assembly from work station to work station, a finished product can be assembled faster and with less labor than by having workers carry parts to a stationary piece for assembly.” Availability % According to Wikipedia, “An assembly line is a manufacturing process in which parts (usually interchangeable parts) are added as the semi-finished assembly moves from workstation to workstation where the parts are added in sequence until the final assembly is produced. Most industrial processes include some sort of assembly line. Additionally, 5s builds a culture of standardization for how a company, a division, or even a process should operate. Basically, by creating an efficient organization system where everything has a place, it will subsequently create an efficient working environment. It applies to workplace organization and uses a list of five Japanese words to organize the theory – seiri (sort), seiton (set in order), seiso (shine), seiketsu (standardize), and shitsuke (sustain). This one, rather than an acronym or term, is a theory. ![]()
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