El documento explica qué es el sistema Poka-Yoke, el cual se utiliza para prevenir errores en procesos. El Poka-Yoke puede diseñarse para impedir que ocurran errores o para advertir sobre ellos. Algunas empresas que usan este sistema son AT&TPOWER y TRW Automotive. El documento también menciona cuatro ejemplos de dispositivos Poka-Yoke como los frenos ABS, luces de advertencia en vehículos, interruptores eléctricos y rediseños para eliminar partes que puedan causar errores.
Industrial Eye provides machine vision solutions for lean manufacturing applications. They categorize applications into gauging, guidance, identification, and inspection. They have experience with a variety of applications within these categories across different industries. Their commitment is to develop optimal, validated machine vision solutions that are aligned with client needs and requirements.
Process Improvement using Lean Six Sigma MethodologyAlvaro Plaza
Lean Six Sigma tools used to increase productivity and eliminate waste:
- Value Stream Mapping
- 5s
- failure modes and effects analysis FMEA
- Poke Yoke
- Standardizing procedures
This presentation will define Six Sigma and describe the benefits of incorporating Six Sigma methods to company business practices and processes. Six Sigma methods & strategies have been known to improve business services, processes and ROI by as much as 70 percent. Can be deployed in all industry types and sizes.
Mistake proofing takes 5 common forms: preventing, pausing, notifying, minimizing, and guiding. Preventing uses design to make mistakes impossible through shapes, sizes or functions. Pausing adds hurdles to force stopping and reconsidering. Notifying informs of potential mistakes without stopping. Minimizing controls damage if a mistake occurs. Guiding suggests but does not stop, as with reminders. The document explores examples like gas nozzle sizes, car warnings, and hygiene signs.
The document discusses mistake proofing (Poka Yoke) techniques. It provides examples of mistake proofing devices used in various processes to prevent defects from occurring. The key steps in mistake proofing are to identify the defect, its root cause, and develop a device to prevent mistakes and signal errors. Mistake proofing aims to prevent defects at the source of production to improve quality and reduce waste from rework and inspection.
Poka-yoke, or mistake-proofing, aims to eliminate human errors in manufacturing processes through simple and inexpensive devices. There are three main poka-yoke methods: contact methods use sensors to detect proper physical contact between parts; counting methods ensure the correct number of process steps occur; and motion-sequence methods check that motions happen in the proper order. Examples show that simple devices like limit switches can detect missing parts or out-of-sequence steps, and cost little to implement while reaping large savings by reducing defects.
Poka yoke: The Science of Mistake Proofing in SoftwareGurpreet Luthra
Presentation on Poka Yoke in Software which was delivered by Dhaval Doshi and Gurpreet Luthra at ThoughtWorks xConf in July 2012.
For details refer to Blog Post:
http://techie-notebook.blogspot.in/2012/07/poka-yoke-applying-mistake-proofing-to.html
El documento explica qué es el sistema Poka-Yoke, el cual se utiliza para prevenir errores en procesos. El Poka-Yoke puede diseñarse para impedir que ocurran errores o para advertir sobre ellos. Algunas empresas que usan este sistema son AT&TPOWER y TRW Automotive. El documento también menciona cuatro ejemplos de dispositivos Poka-Yoke como los frenos ABS, luces de advertencia en vehículos, interruptores eléctricos y rediseños para eliminar partes que puedan causar errores.
Industrial Eye provides machine vision solutions for lean manufacturing applications. They categorize applications into gauging, guidance, identification, and inspection. They have experience with a variety of applications within these categories across different industries. Their commitment is to develop optimal, validated machine vision solutions that are aligned with client needs and requirements.
Process Improvement using Lean Six Sigma MethodologyAlvaro Plaza
Lean Six Sigma tools used to increase productivity and eliminate waste:
- Value Stream Mapping
- 5s
- failure modes and effects analysis FMEA
- Poke Yoke
- Standardizing procedures
This presentation will define Six Sigma and describe the benefits of incorporating Six Sigma methods to company business practices and processes. Six Sigma methods & strategies have been known to improve business services, processes and ROI by as much as 70 percent. Can be deployed in all industry types and sizes.
Mistake proofing takes 5 common forms: preventing, pausing, notifying, minimizing, and guiding. Preventing uses design to make mistakes impossible through shapes, sizes or functions. Pausing adds hurdles to force stopping and reconsidering. Notifying informs of potential mistakes without stopping. Minimizing controls damage if a mistake occurs. Guiding suggests but does not stop, as with reminders. The document explores examples like gas nozzle sizes, car warnings, and hygiene signs.
The document discusses mistake proofing (Poka Yoke) techniques. It provides examples of mistake proofing devices used in various processes to prevent defects from occurring. The key steps in mistake proofing are to identify the defect, its root cause, and develop a device to prevent mistakes and signal errors. Mistake proofing aims to prevent defects at the source of production to improve quality and reduce waste from rework and inspection.
Poka-yoke, or mistake-proofing, aims to eliminate human errors in manufacturing processes through simple and inexpensive devices. There are three main poka-yoke methods: contact methods use sensors to detect proper physical contact between parts; counting methods ensure the correct number of process steps occur; and motion-sequence methods check that motions happen in the proper order. Examples show that simple devices like limit switches can detect missing parts or out-of-sequence steps, and cost little to implement while reaping large savings by reducing defects.
Poka yoke: The Science of Mistake Proofing in SoftwareGurpreet Luthra
Presentation on Poka Yoke in Software which was delivered by Dhaval Doshi and Gurpreet Luthra at ThoughtWorks xConf in July 2012.
For details refer to Blog Post:
http://techie-notebook.blogspot.in/2012/07/poka-yoke-applying-mistake-proofing-to.html
Lean Six Sigma Mistake-Proofing Process Training ModuleFrank-G. Adler
The Mistake-Proofing Process Training Module v5.0 includes:
1. MS PowerPoint Presentation including 128 slides covering in detail an Introduction to Process Risk Analysis & Mistake-Proofing, Process Variables Mapping, Cause & Effect Matrix, Process Failure Mode and Effects Analysis, Human Work Model, Sixteen Human Error Modes, Six Mistake-Proofing Principles, Five Mistake-Proofing Methods, Seven Types of Poka-Yoke Devices, Poka-Yoke Examples, Process Control Plan, and 6 Workshop Exercises.
2. MS Word Process FMEA Severity, Occurrence, and Detection Risk Assessment Guidelines
3. MS Excel Process Variables Map Template, Cause & Effect Matrix Template, Process Failure Modes and Effects Analysis Template, and Process Control Plan Template
The document discusses mistake proofing and poka-yoke techniques. It covers key aspects of a zero defect quality system including point of origin inspection, 100% audit checks, immediate feedback, and poka-yoke methods. Poka-yoke refers to using sensors or devices to detect errors and can be either control systems that shut down processes when errors are detected or warning systems that signal operators to correct issues.
Poka-yoke is a quality assurance technique that aims to eliminate product defects by preventing human errors during production. It works by incorporating mechanisms that detect errors and provide warnings or corrections. Examples of poka-yoke include sensors that check weight limits in elevators and vision sensors that inspect parts on production lines. There are three main types of poka-yoke: contact methods that check physical attributes, fixed value methods that detect incorrect counts, and motion step methods that verify process steps. Implementing simple, inexpensive poka-yoke devices can significantly reduce defects and costs for companies.
POKA-YOKE - A Lean Strategy to Mistake ProofingTimothy Wooi
A Lean Strategy in Human Error Prevention aims to detect and correct possible error immediately, eliminating defects at the source.
Poka-Yoke overcome the inefficiencies of inspection through the use of automatic devices that seek,
1.Not to accept a defect for the process
2.Not to Create a Defect
3.Not to Allow a Defect to be passed to the next process
Its purpose is to eliminate product defects by preventing, correcting, or drawing attention to human errors as they occur.
The concept was formalized, and the term adopted, by Shigeo Shingo as part of the
Toyota Production System.
It was originally described as baka-yoke, meaning "fool-proofing“ or “idiot proofing” but the name was later changed to the milder poka-yoke.
Poka-yoke, also known as mistake-proofing, aims to eliminate defects by preventing or correcting mistakes as early as possible. It was developed by Dr. Shigeo Shingo as part of the Toyota Production System. The presentation defines poka-yoke, discusses common errors and their impacts, and provides examples of mistake-proofing strategies and devices that make errors harder or impossible, like limit switches, guide pins, and checklists. The goal of poka-yoke is to achieve zero defects through early detection and prevention of mistakes in the production process.
José Luis Jiménez Rodríguez
Junio 2024.
“La pedagogía es la metodología de la educación. Constituye una problemática de medios y fines, y en esa problemática estudia las situaciones educativas, las selecciona y luego organiza y asegura su explotación situacional”. Louis Not. 1993.
Lean Six Sigma Mistake-Proofing Process Training ModuleFrank-G. Adler
The Mistake-Proofing Process Training Module v5.0 includes:
1. MS PowerPoint Presentation including 128 slides covering in detail an Introduction to Process Risk Analysis & Mistake-Proofing, Process Variables Mapping, Cause & Effect Matrix, Process Failure Mode and Effects Analysis, Human Work Model, Sixteen Human Error Modes, Six Mistake-Proofing Principles, Five Mistake-Proofing Methods, Seven Types of Poka-Yoke Devices, Poka-Yoke Examples, Process Control Plan, and 6 Workshop Exercises.
2. MS Word Process FMEA Severity, Occurrence, and Detection Risk Assessment Guidelines
3. MS Excel Process Variables Map Template, Cause & Effect Matrix Template, Process Failure Modes and Effects Analysis Template, and Process Control Plan Template
The document discusses mistake proofing and poka-yoke techniques. It covers key aspects of a zero defect quality system including point of origin inspection, 100% audit checks, immediate feedback, and poka-yoke methods. Poka-yoke refers to using sensors or devices to detect errors and can be either control systems that shut down processes when errors are detected or warning systems that signal operators to correct issues.
Poka-yoke is a quality assurance technique that aims to eliminate product defects by preventing human errors during production. It works by incorporating mechanisms that detect errors and provide warnings or corrections. Examples of poka-yoke include sensors that check weight limits in elevators and vision sensors that inspect parts on production lines. There are three main types of poka-yoke: contact methods that check physical attributes, fixed value methods that detect incorrect counts, and motion step methods that verify process steps. Implementing simple, inexpensive poka-yoke devices can significantly reduce defects and costs for companies.
POKA-YOKE - A Lean Strategy to Mistake ProofingTimothy Wooi
A Lean Strategy in Human Error Prevention aims to detect and correct possible error immediately, eliminating defects at the source.
Poka-Yoke overcome the inefficiencies of inspection through the use of automatic devices that seek,
1.Not to accept a defect for the process
2.Not to Create a Defect
3.Not to Allow a Defect to be passed to the next process
Its purpose is to eliminate product defects by preventing, correcting, or drawing attention to human errors as they occur.
The concept was formalized, and the term adopted, by Shigeo Shingo as part of the
Toyota Production System.
It was originally described as baka-yoke, meaning "fool-proofing“ or “idiot proofing” but the name was later changed to the milder poka-yoke.
Poka-yoke, also known as mistake-proofing, aims to eliminate defects by preventing or correcting mistakes as early as possible. It was developed by Dr. Shigeo Shingo as part of the Toyota Production System. The presentation defines poka-yoke, discusses common errors and their impacts, and provides examples of mistake-proofing strategies and devices that make errors harder or impossible, like limit switches, guide pins, and checklists. The goal of poka-yoke is to achieve zero defects through early detection and prevention of mistakes in the production process.
José Luis Jiménez Rodríguez
Junio 2024.
“La pedagogía es la metodología de la educación. Constituye una problemática de medios y fines, y en esa problemática estudia las situaciones educativas, las selecciona y luego organiza y asegura su explotación situacional”. Louis Not. 1993.
Presentación de la historia de PowerPoint y sus características más relevantes.
Qué es slideshare
1. LINKEDIN SLIDESHARE ES UN CENTRO GLOBAL DE CONTENIDO PROFESIONAL. ES
UNO DE LOS 100 SITIOS WEB MÁS VISITADOS DEL MUNDO, CON MÁS DE 70
MILLONES DE VISITANTES ÚNICOS Y 18 MILLONES DE CONTENIDO CARGADO
HASTA LA FECHA. EN SLIDESHARE PUEDES VER Y CARGAR:
• PRESENTACIONES
• INFOGRAFÍAS
• DOCUMENTOS
• VÍDEOS
2. ¿QUÉ SE PUEDE CARGAR?
• TEMAS QUE OSCILAN DESDE CONSEJOS DE MARKETING Y TENDENCIAS DE
DISEÑO HASTA ARTÍCULOS DEL HOGAR Y ENSAYOS FOTOGRÁFICOS, LAS
POSIBILIDADES SON INFINITAS.
3. ¿QUIÉN UTILIZA SLIDESHARE?
• LÍDERES Y EMPRESARIOS
• EDUCACIÓN
• MEDIOS DE COMUNICACIÓN
• EMPRESAS
• ONG E INSTITUCIONES GUBERNAMENTALES
• CONFERENCIANTES
4. ELEMENTOS BÁSICOS DEL
DISEÑO
• EQUILIBRIO: UTILIZA LA SIMETRÍA Y LA ASIMETRÍA PARA PONER DE RELIEVE DETERMINADOS ELEMENTOS.
• ÉNFASIS: HAZ DESTACAR EL ELEMENTO MÁS IMPORTANTE DE TU PRESENTACIÓN.
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• MOVIMIENTO: UTILIZA ELEMENTOS COMO LÍNEAS CURVAS PARA INVITAR AL OJO A MOVERSE DE UN PUNTO
AL SIGUIENTE.
• REGLA DE TERCIOS HORIZONTAL
INCLUYE TU TEMA EN LA PARTE SUPERIOR.
COLOCA TU OBJETO A LA IZQUIERDA, A LA DERECHA, EN LA PARTE SUPERIOR O INFERIOR (NO EN EL
CENTRO).
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COLOCA SIEMPRE LOS OBJETOS A LA IZQUIERDA O A LA DERECHA PARA DEJAR UN ESPACIO EN BLANCO.
5. COLORES
LOS COLORES TIENEN LA CAPACIDAD DE DESENCADENAR EMOCIONES, ASÍ QUE ES
IMPORTANTE QUE ESCOJAS COLORES QUE SE ADAPTEN A TU VOZ Y A TU TEMA. ESTOS
SON SOLO ALGUNOS ADJETIVOS ASOCIADOS A CADA COLOR:
• ROJO: AMOR Y PASIÓN
• NARANJA: ENTUSIASMO Y FELICIDAD
• AMARILLO: ALEGRÍA Y ESPERANZA
• VERDE: CRECIMIENTO Y ESTABILIDAD
• AZUL: RESPONSABILIDAD Y FUERZA
• MORADO: AMBICIÓN Y LEALTAD
• BLANCO: BONDAD Y PUREZA
• NEGRO: ELEGANCIA Y PODER
6. FOTOS E IMÁGENES
SÉ AUTÉNTICO: UTILIZA FOTOGRAFÍAS CON LAS QUE PUEDA
RELACIONARSE LA GENTE
COMBINAR TEXTO CON IMÁGENES
AÑADIR UNA CAPA: AÑADE UNA CAPA SOBRE LA IMAGEN Y
AJUSTA LA TRANSPARENCIA PARA QUE EL TEXTO SE PUEDA
LEER MEJOR EN LA FOTO.
AÑADIR PERSPECTIVA: AJUSTA EL TEXTO PARA QUE PAREZCA
QUE ESTÁ SIENDO VISTO DESDE EL ÁNGULO DE LA CÁMARA.
CONSEJOS DE DISEÑO PARA INFOGRAFÍAS
LAS INFOGRAFÍAS SON MÁS VIRALES:
SE COMPARTEN Y SE RECOMIENDAN MÁS EN
SLIDESHARE QUE LAS PRESENTACIONES Y LOS
DOCUMENTOS.