The document provides information on flowcharts, including what they are, when they should be used, common symbols, and different types. A flowchart is a diagram that uses graphic symbols to represent the steps in a process. They should be used at the beginning of process improvement efforts to help understand and illustrate a process. The key to successful flowcharting is to depict the current process as it actually works. There are three main types: linear, deployment, and opportunity flowcharts. Linear flowcharts display the work step sequence, while deployment flowcharts show process flow and who is involved at each step.
A flow chart is a diagram that represents the sequence of steps in a process or algorithm. It uses standard symbols to visually depict the steps and decision points in a process. Flow charts facilitate communication, analysis, and documentation of processes and algorithms. Guidelines for effective flow charts include using standard symbols, clear and logical ordering of steps, and avoiding ambiguity or intersection of flow lines.
A flowchart is a pictorial representation of an algorithm or process. It uses standard symbols to visually depict the steps of a process and the flow of data between those steps. Flowcharts help clarify processes, communicate logic, aid in effective analysis and problem solving, and serve as documentation for programs. While they make logic clear, flowcharts can become complex and costly for large programs, and difficult to modify or keep updated.
The document contains examples of flow charts demonstrating various processes and workflows. The flow charts include shapes representing processes, decisions, data, documents, and connectors linking the elements. Some flow charts are 2D while others demonstrate how to convert a 2D chart to 3D by grouping, formatting, and adjusting shapes and lines. The document provides instructions for editing, ungrouping, and changing colors of the flow chart elements.
The document discusses process mapping techniques to analyze a company's current ("As-Is") processes and design improved future ("To-Be") processes. It covers identifying process steps, mapping workflows, analyzing inefficiencies, defining metrics, and implementing improvements through a Plan-Do-Study-Act cycle. The goal is to understand processes, find opportunities for streamlining, and establish a shared understanding of work across departments.
Flowcharts are used to represent algorithms and processes using graphical symbols. They contain symbols that represent actions, decisions, or connections between steps. The key flowchart structures are sequence, selection, and repetition. Sequence shows steps executed in order. Selection, or decision, determines which steps occur based on a condition being true or false. Repetition allows steps to be repeated as long as a condition is met. These basic structures can be combined to model complex processes and algorithms.
This document provides a learning module on computer hardware servicing for grades 7 and 8 in the Philippines. It covers four key lessons: (1) using hand tools, (2) performing calculations and measurements, (3) preparing and interpreting technical drawings, and (4) practicing occupational health and safety. Each lesson aims to achieve several learning outcomes and provides materials, activities, and assessments to help students meet the defined performance standards. The overall goal is to introduce students to the field of computer hardware servicing and prepare them for a potential certification in that area.
The document provides information on flowcharts, including what they are, when they should be used, common symbols, and different types. A flowchart is a diagram that uses graphic symbols to represent the steps in a process. They should be used at the beginning of process improvement efforts to help understand and illustrate a process. The key to successful flowcharting is to depict the current process as it actually works. There are three main types: linear, deployment, and opportunity flowcharts. Linear flowcharts display the work step sequence, while deployment flowcharts show process flow and who is involved at each step.
A flow chart is a diagram that represents the sequence of steps in a process or algorithm. It uses standard symbols to visually depict the steps and decision points in a process. Flow charts facilitate communication, analysis, and documentation of processes and algorithms. Guidelines for effective flow charts include using standard symbols, clear and logical ordering of steps, and avoiding ambiguity or intersection of flow lines.
A flowchart is a pictorial representation of an algorithm or process. It uses standard symbols to visually depict the steps of a process and the flow of data between those steps. Flowcharts help clarify processes, communicate logic, aid in effective analysis and problem solving, and serve as documentation for programs. While they make logic clear, flowcharts can become complex and costly for large programs, and difficult to modify or keep updated.
The document contains examples of flow charts demonstrating various processes and workflows. The flow charts include shapes representing processes, decisions, data, documents, and connectors linking the elements. Some flow charts are 2D while others demonstrate how to convert a 2D chart to 3D by grouping, formatting, and adjusting shapes and lines. The document provides instructions for editing, ungrouping, and changing colors of the flow chart elements.
The document discusses process mapping techniques to analyze a company's current ("As-Is") processes and design improved future ("To-Be") processes. It covers identifying process steps, mapping workflows, analyzing inefficiencies, defining metrics, and implementing improvements through a Plan-Do-Study-Act cycle. The goal is to understand processes, find opportunities for streamlining, and establish a shared understanding of work across departments.
Flowcharts are used to represent algorithms and processes using graphical symbols. They contain symbols that represent actions, decisions, or connections between steps. The key flowchart structures are sequence, selection, and repetition. Sequence shows steps executed in order. Selection, or decision, determines which steps occur based on a condition being true or false. Repetition allows steps to be repeated as long as a condition is met. These basic structures can be combined to model complex processes and algorithms.
This document provides a learning module on computer hardware servicing for grades 7 and 8 in the Philippines. It covers four key lessons: (1) using hand tools, (2) performing calculations and measurements, (3) preparing and interpreting technical drawings, and (4) practicing occupational health and safety. Each lesson aims to achieve several learning outcomes and provides materials, activities, and assessments to help students meet the defined performance standards. The overall goal is to introduce students to the field of computer hardware servicing and prepare them for a potential certification in that area.
TSR: Tele-Service Robot
The goal of the TSR project is to build a remotely controlled robot to assist disabled and elderly in their daily life.
The robot helps people at home and is controlled from a central location by a home-care operator or by a local remote control. The care receiver will be much more independent and will also receive a higher quality of care. The robot will eventually be able to perform autonomous tasks. However the human operator will always stay in the loop.
Important aspects of the system are:
- Safety
- Usability
- Autonomy
Subsidizers: AgentschapNL and Provence of Brabant
Research Institutes & Companies:
Exact Dynamics, Fontys, INROADS, NTS, Sioux, TU/e, Tegema, Van Berlo, Wingz, Zuid Zorg.
Other Affiliates:
KT Waalre, NIRICT Labs and RoboNED
For more information, go to our website: www.robot-rose.nl
NROADS levert professionele support bij het ontwikkelen en realiseren van innovatieprojecten, innovatieprogramma's en samenwerking. Als kennispartner werken wij voor bedrijven, kennisinstellingen, brancheorganisaties en overheden. Gevestigd in Brainport Regio Eindhoven, beschikken onze mensen over een breed netwerk binnen de Automotive, Mobiliteit en High Tech industrie.
TSR: Tele-Service Robot
The goal of the TSR project is to build a remotely controlled robot to assist disabled and elderly in their daily life.
The robot helps people at home and is controlled from a central location by a home-care operator or by a local remote control (see Figure 1). The care receiver will be much more independent and will also receive a higher quality of care. The robot will eventually be able to perform autonomous tasks. However the human operator will always stay in the loop.
Important aspects of the system are:
- Safety
- Usability
- Autonomy
Subsidizers: AgentschapNL and Provence of Brabant
Research Institutes & Companies:
Exact Dynamics, Fontys, INROADS, NTS, Sioux, TU/e, Tegema, Van Berlo, Wingz, Zuid Zorg.
Other Affiliates:
KT Waalre, NIRICT Labs and RoboNED
For more information, go to our website: www.robot-rose.nl
TSR: Tele-Service Robot
The goal of the TSR project is to build a remotely controlled robot to assist disabled and elderly in their daily life.
The robot helps people at home and is controlled from a central location by a home-care operator or by a local remote control. The care receiver will be much more independent and will also receive a higher quality of care. The robot will eventually be able to perform autonomous tasks. However the human operator will always stay in the loop.
Important aspects of the system are:
- Safety
- Usability
- Autonomy
Subsidizers: AgentschapNL and Provence of Brabant
Research Institutes & Companies:
Exact Dynamics, Fontys, INROADS, NTS, Sioux, TU/e, Tegema, Van Berlo, Wingz, Zuid Zorg.
Other Affiliates:
KT Waalre, NIRICT Labs and RoboNED
For more information, go to our website: www.robot-rose.nl
INROADS is gespecialiseerd in het ontwikkelen en realiseren van innovatieprojecten, innovatieprogramma's en samenwerking. Wij zetten onze kennis en expertise in voor inhoudelijke ondersteuning van bedrijven, onderwijs- en kennisinstellingen, brancheorganisaties en overheden. De focus van onze werkzaamheden ligt op technologieontwikkeling binnen de specifieke thema’s automotive, mobiliteit en hightech systemen. Voor professioneel en onafhankelijk advies en management bent u bij INROADS aan het goede adres.
TSR: Tele-Service Robot
The goal of the TSR project is to build a remotely controlled robot to assist disabled and elderly in their daily life.
The robot helps people at home and is controlled from a central location by a home-care operator or by a local remote control. The care receiver will be much more independent and will also receive a higher quality of care. The robot will eventually be able to perform autonomous tasks. However the human operator will always stay in the loop.
Important aspects of the system are:
- Safety
- Usability
- Autonomy
Subsidizers: AgentschapNL and Provence of Brabant
Research Institutes & Companies:
Exact Dynamics, Fontys, INROADS, NTS, Sioux, TU/e, Tegema, Van Berlo, Wingz, Zuid Zorg.
Other Affiliates:
KT Waalre, NIRICT Labs and RoboNED
For more information, go to our website: www.robot-rose.nl
NROADS levert professionele support bij het ontwikkelen en realiseren van innovatieprojecten, innovatieprogramma's en samenwerking. Als kennispartner werken wij voor bedrijven, kennisinstellingen, brancheorganisaties en overheden. Gevestigd in Brainport Regio Eindhoven, beschikken onze mensen over een breed netwerk binnen de Automotive, Mobiliteit en High Tech industrie.
TSR: Tele-Service Robot
The goal of the TSR project is to build a remotely controlled robot to assist disabled and elderly in their daily life.
The robot helps people at home and is controlled from a central location by a home-care operator or by a local remote control (see Figure 1). The care receiver will be much more independent and will also receive a higher quality of care. The robot will eventually be able to perform autonomous tasks. However the human operator will always stay in the loop.
Important aspects of the system are:
- Safety
- Usability
- Autonomy
Subsidizers: AgentschapNL and Provence of Brabant
Research Institutes & Companies:
Exact Dynamics, Fontys, INROADS, NTS, Sioux, TU/e, Tegema, Van Berlo, Wingz, Zuid Zorg.
Other Affiliates:
KT Waalre, NIRICT Labs and RoboNED
For more information, go to our website: www.robot-rose.nl
TSR: Tele-Service Robot
The goal of the TSR project is to build a remotely controlled robot to assist disabled and elderly in their daily life.
The robot helps people at home and is controlled from a central location by a home-care operator or by a local remote control. The care receiver will be much more independent and will also receive a higher quality of care. The robot will eventually be able to perform autonomous tasks. However the human operator will always stay in the loop.
Important aspects of the system are:
- Safety
- Usability
- Autonomy
Subsidizers: AgentschapNL and Provence of Brabant
Research Institutes & Companies:
Exact Dynamics, Fontys, INROADS, NTS, Sioux, TU/e, Tegema, Van Berlo, Wingz, Zuid Zorg.
Other Affiliates:
KT Waalre, NIRICT Labs and RoboNED
For more information, go to our website: www.robot-rose.nl
INROADS is gespecialiseerd in het ontwikkelen en realiseren van innovatieprojecten, innovatieprogramma's en samenwerking. Wij zetten onze kennis en expertise in voor inhoudelijke ondersteuning van bedrijven, onderwijs- en kennisinstellingen, brancheorganisaties en overheden. De focus van onze werkzaamheden ligt op technologieontwikkeling binnen de specifieke thema’s automotive, mobiliteit en hightech systemen. Voor professioneel en onafhankelijk advies en management bent u bij INROADS aan het goede adres.
1. Tele-operated Service Robot Rose
Michiel van Osch
Gesubsidieerd door het Ministerie van Economische Zaken en de Provincie Noord-Brab
2. TSR Project
• Bouw een demonstratie tele-operated robot voor thuiszorg
en experimenteer met die robot in de thuisomgeving
• Budget: 2.7 miljoen euro
• Duur: oktober 2009 tot juni 2012
• Subsidienten: ministerie van economische zaken
(AgentschapNL) en de provincie
Noord-Brabant
• 10 partners: 6 MKB, 3 onderzoek, 1 zorg
6. Leidraad: Use Cases
Licht aandoen
Deuren openen/
sluiten Persoonalarmeri
Melk Een maaltijd
inschenken verwarmen in
de magnetron
Ontbijtspullen
brengen
7. Rose 0: Maart 2010
• Doel: het concept aantonen
• Eerste besturingservaringen
opdoen
• Iets pakken handmatig is
moeilijk
• Diepte zien is moeilijk
• Een rolstoel is te log voor
precieze besturing
8. Rose 1: Maart 2011
• Doel: Een eerste werkbare
demonstrator
• Eerste experimenten met
operators in een huis
• Enthousiaste thuiszorg
medewerkers
• Automatisering van arm taken
• Grotere taakruimte nodig
• Twee wiel besturing niet
manoeuvreerbaar genoeg
• Ontwikkeling in huis is een enorme
boost
9. Rose 2 (Rose): Maart 2012
• Doel: Een nieuwe robot op basis
van voorgaande ervaringen
• Experimenten in huis, met
thuiszorgmedewerkers en
cliënten
• Enthousiaste cliënten
• Meer autonome taken, richting nut
functies
• Het volledige concept operationeel