What is involved in Biomechatronics
Find out what the related areas are that Biomechatronics connects with, associates with, correlates with or affects, and which require thought, deliberation, analysis, review and discussion. This unique checklist stands out in a sense that it is not per-se designed to give answers, but to engage the reader and lay out a Biomechatronics thinking-frame.
How far is your company on its Biomechatronics journey?
Take this short survey to gauge your organization’s progress toward Biomechatronics leadership. Learn your strongest and weakest areas, and what you can do now to create a strategy that delivers results.
To address the criteria in this checklist for your organization, extensive selected resources are provided for sources of further research and information.
Start the Checklist
Below you will find a quick checklist designed to help you think about which Biomechatronics related domains to cover and 101 essential critical questions to check off in that domain.
The following domains are covered:
Biomechatronics, Cognitive neuroscience, Electrical activity, Rehabilitation Institute of Chicago, Cognitive science, Vernor Vinge, Sensory substitution, Intelligence amplification, Nobel Prize in Physiology or Medicine, Environmental science, Emerging technologies, Muscle system, Mind uploading, United States Department of Defense, Yoky Matsuoka, Simulated reality, Integrated circuit, Bachelor of Science, Electrode array, Timeline of biology and organic chemistry, Nerve cells, Biomedical engineering, Computer models, Synthetic telepathy, Action potential, Nervous system, US Department of Veterans Affairs, Leg muscles, Neural ensemble, Biomechatronics, Computational neuroscience, Muscle spindle, Physical anthropology, Omne vivum ex ovo, J. C. R. Licklider, Neural engineering:
Biomechatronics Critical Criteria:
Conceptualize Biomechatronics projects and observe effective Biomechatronics.
– Among the Biomechatronics product and service cost to be estimated, which is considered hardest to estimate?
– How do senior leaders actions reflect a commitment to the organizations Biomechatronics values?
– Who are the people involved in developing and implementing Biomechatronics?
Cognitive neuroscience Critical Criteria:
Generalize Cognitive neuroscience adoptions and document what potential Cognitive neuroscience megatrends could make our business model obsolete.
– what is the best design framework for Biomechatronics organization now that, in a post industrial-age if the top-down, command and control model is no longer relevant?
– What are the disruptive Biomechatronics technologies that enable our organization to radically change our business processes?
– What potential environmental factors impact the Biomechatronics effort?
Electrical activity Critical Criteria:
Transcribe Electrical activity quality and look at it backwards.
– Is there a Biomechatronics Communication plan covering who needs to get what information when?
– What business benefits will Biomechatronics goals deliver if achieved?
– Do we all define Biomechatronics in the same way?
Rehabilitation Institute of Chicago Critical Criteria:
Disseminate Rehabilitation Institute of Chicago management and cater for concise Rehabilitation Institute of Chicago education.
– What are our best practices for minimizing Biomechatronics project risk, while demonstrating incremental value and quick wins throughout the Biomechatronics project lifecycle?
– Can we do Biomechatronics without complex (expensive) analysis?
– What is Effective Biomechatronics?
Cognitive science Critical Criteria:
Unify Cognitive science outcomes and remodel and develop an effective Cognitive science strategy.
– Do we monitor the Biomechatronics decisions made and fine tune them as they evolve?
– How do we Lead with Biomechatronics in Mind?
Vernor Vinge Critical Criteria:
Consolidate Vernor Vinge risks and learn.
– Have the types of risks that may impact Biomechatronics been identified and analyzed?
– Do we have past Biomechatronics Successes?
Sensory substitution Critical Criteria:
Illustrate Sensory substitution visions and get the big picture.
– What management system can we use to leverage the Biomechatronics experience, ideas, and concerns of the people closest to the work to be done?
– Do we aggressively reward and promote the people who have the biggest impact on creating excellent Biomechatronics services/products?
– What is the total cost related to deploying Biomechatronics, including any consulting or professional services?
Intelligence amplification Critical Criteria:
Read up on Intelligence amplification results and ask what if.
– Do we cover the five essential competencies-Communication, Collaboration,Innovation, Adaptability, and Leadership that improve an organizations ability to leverage the new Biomechatronics in a volatile global economy?
– How do we manage Biomechatronics Knowledge Management (KM)?
Nobel Prize in Physiology or Medicine Critical Criteria:
Detail Nobel Prize in Physiology or Medicine tactics and cater for concise Nobel Prize in Physiology or Medicine education.
– How do your measurements capture actionable Biomechatronics information for use in exceeding your customers expectations and securing your customers engagement?
– Do several people in different organizational units assist with the Biomechatronics process?
– What is the purpose of Biomechatronics in relation to the mission?
Environmental science Critical Criteria:
Confer over Environmental science risks and reduce Environmental science costs.
– What are the barriers to increased Biomechatronics production?
Emerging technologies Critical Criteria:
Coach on Emerging technologies leadership and cater for concise Emerging technologies education.
– Do you have a good understanding of emerging technologies and business trends that are vital for the management of IT risks in a fast-changing environment?
– What may be the consequences for the performance of an organization if all stakeholders are not consulted regarding Biomechatronics?
– Has the impact of emerging technologies on the product been considered?
– What vendors make products that address the Biomechatronics needs?
– How can the value of Biomechatronics be defined?
Muscle system Critical Criteria:
Analyze Muscle system leadership and learn.
– What are our needs in relation to Biomechatronics skills, labor, equipment, and markets?
– Does Biomechatronics appropriately measure and monitor risk?
Mind uploading Critical Criteria:
Co-operate on Mind uploading failures and look at it backwards.
– How do you determine the key elements that affect Biomechatronics workforce satisfaction? how are these elements determined for different workforce groups and segments?
United States Department of Defense Critical Criteria:
Sort United States Department of Defense tasks and assess and formulate effective operational and United States Department of Defense strategies.
– Does Biomechatronics systematically track and analyze outcomes for accountability and quality improvement?
– What are specific Biomechatronics Rules to follow?
Yoky Matsuoka Critical Criteria:
Familiarize yourself with Yoky Matsuoka outcomes and spearhead techniques for implementing Yoky Matsuoka.
– What are the top 3 things at the forefront of our Biomechatronics agendas for the next 3 years?
– Are there any disadvantages to implementing Biomechatronics? There might be some that are less obvious?
– How important is Biomechatronics to the user organizations mission?
Simulated reality Critical Criteria:
Paraphrase Simulated reality management and forecast involvement of future Simulated reality projects in development.
– How can skill-level changes improve Biomechatronics?
Integrated circuit Critical Criteria:
Devise Integrated circuit tasks and define what our big hairy audacious Integrated circuit goal is.
– Will new equipment/products be required to facilitate Biomechatronics delivery for example is new software needed?
– Are there Biomechatronics problems defined?
Bachelor of Science Critical Criteria:
Have a session on Bachelor of Science visions and interpret which customers can’t participate in Bachelor of Science because they lack skills.
– What are your results for key measures or indicators of the accomplishment of your Biomechatronics strategy and action plans, including building and strengthening core competencies?
Electrode array Critical Criteria:
Define Electrode array outcomes and spearhead techniques for implementing Electrode array.
– How do mission and objectives affect the Biomechatronics processes of our organization?
– What tools and technologies are needed for a custom Biomechatronics project?
– Do you monitor the effectiveness of your Biomechatronics activities?
Timeline of biology and organic chemistry Critical Criteria:
Inquire about Timeline of biology and organic chemistry quality and ask questions.
– Is a Biomechatronics Team Work effort in place?
– What are our Biomechatronics Processes?
Nerve cells Critical Criteria:
Cut a stake in Nerve cells quality and learn.
– Record-keeping requirements flow from the records needed as inputs, outputs, controls and for transformation of a Biomechatronics process. ask yourself: are the records needed as inputs to the Biomechatronics process available?
– Have you identified your Biomechatronics key performance indicators?
– How can you measure Biomechatronics in a systematic way?
Biomedical engineering Critical Criteria:
Illustrate Biomedical engineering adoptions and catalog what business benefits will Biomedical engineering goals deliver if achieved.
– Marketing budgets are tighter, consumers are more skeptical, and social media has changed forever the way we talk about Biomechatronics. How do we gain traction?
– Where do ideas that reach policy makers and planners as proposals for Biomechatronics strengthening and reform actually originate?
– Is maximizing Biomechatronics protection the same as minimizing Biomechatronics loss?
Computer models Critical Criteria:
Collaborate on Computer models management and be persistent.
– What sources do you use to gather information for a Biomechatronics study?
– How does the organization define, manage, and improve its Biomechatronics processes?
Synthetic telepathy Critical Criteria:
Recall Synthetic telepathy engagements and correct Synthetic telepathy management by competencies.
– How do we Improve Biomechatronics service perception, and satisfaction?
Action potential Critical Criteria:
Confer over Action potential goals and proactively manage Action potential risks.
– Do the Biomechatronics decisions we make today help people and the planet tomorrow?
– Are we making progress? and are we making progress as Biomechatronics leaders?
– What are the record-keeping requirements of Biomechatronics activities?
Nervous system Critical Criteria:
X-ray Nervous system tactics and prioritize challenges of Nervous system.
– Who is responsible for ensuring appropriate resources (time, people and money) are allocated to Biomechatronics?
– In what ways are Biomechatronics vendors and us interacting to ensure safe and effective use?
US Department of Veterans Affairs Critical Criteria:
Coach on US Department of Veterans Affairs projects and research ways can we become the US Department of Veterans Affairs company that would put us out of business.
– Think about the kind of project structure that would be appropriate for your Biomechatronics project. should it be formal and complex, or can it be less formal and relatively simple?
– Does the Biomechatronics task fit the clients priorities?
– How do we go about Securing Biomechatronics?
Leg muscles Critical Criteria:
Prioritize Leg muscles outcomes and arbitrate Leg muscles techniques that enhance teamwork and productivity.
– When a Biomechatronics manager recognizes a problem, what options are available?
– Are there recognized Biomechatronics problems?
Neural ensemble Critical Criteria:
Huddle over Neural ensemble results and describe the risks of Neural ensemble sustainability.
– Is Biomechatronics dependent on the successful delivery of a current project?
Biomechatronics Critical Criteria:
Guard Biomechatronics tactics and customize techniques for implementing Biomechatronics controls.
Computational neuroscience Critical Criteria:
Exchange ideas about Computational neuroscience planning and explain and analyze the challenges of Computational neuroscience.
– For your Biomechatronics project, identify and describe the business environment. is there more than one layer to the business environment?
– Who will provide the final approval of Biomechatronics deliverables?
Muscle spindle Critical Criteria:
Frame Muscle spindle visions and point out improvements in Muscle spindle.
– In the case of a Biomechatronics project, the criteria for the audit derive from implementation objectives. an audit of a Biomechatronics project involves assessing whether the recommendations outlined for implementation have been met. in other words, can we track that any Biomechatronics project is implemented as planned, and is it working?
– What threat is Biomechatronics addressing?
Physical anthropology Critical Criteria:
Deliberate over Physical anthropology planning and attract Physical anthropology skills.
– What are the long-term Biomechatronics goals?
Omne vivum ex ovo Critical Criteria:
Examine Omne vivum ex ovo planning and slay a dragon.
– How will you know that the Biomechatronics project has been successful?
J. C. R. Licklider Critical Criteria:
Use past J. C. R. Licklider tactics and explain and analyze the challenges of J. C. R. Licklider.
– What is our Biomechatronics Strategy?
Neural engineering Critical Criteria:
Use past Neural engineering risks and be persistent.
This quick readiness checklist is a selected resource to help you move forward. Learn more about how to achieve comprehensive insights with the Biomechatronics Self Assessment:
Author: Gerard Blokdijk
CEO at The Art of Service | http://theartofservice.com
Gerard is the CEO at The Art of Service. He has been providing information technology insights, talks, tools and products to organizations in a wide range of industries for over 25 years. Gerard is a widely recognized and respected information expert. Gerard founded The Art of Service consulting business in 2000. Gerard has authored numerous published books to date.
To address the criteria in this checklist, these selected resources are provided for sources of further research and information:
Biomechatronics External links:
Research – UCLA Biomechatronics Lab
BioMechatronics Waterloo – Home | Facebook
Overview ‹ Biomechatronics — MIT Media Lab
Cognitive neuroscience External links:
Cognitive Neuroscience | Language Science
Cognitive Neuroscience nsf06557 – nsf.gov
Cognitive neuroscience (Book, 2009) [WorldCat.org]
Electrical activity External links:
Electrical Activity of Neurons | HHMI BioInteractive
[PPT]02 Electrical Activity of the Heart – EIU
Rehabilitation Institute of Chicago External links:
Rehabilitation Institute Of Chicago – hotrehab.com
Rehabilitation Institute of Chicago – GuideStar Profile
# Rehabilitation Institute Of Chicago – wayrehab …
Cognitive science External links:
Undergraduate | Cognitive Science | Johns Hopkins …
Michigan State University Cognitive Science Program
Vernor Vinge External links:
Zones of Thought Series by Vernor Vinge
Vernor Vinge Quotes – BrainyQuote
Vernor Vinge on the Technological Singularity – YouTube
Sensory substitution External links:
[PDF]Sensory substitution and the human–machine …
Sensory Substitution Vest – David Eagleman
Intelligence amplification External links:
Next-generation Intelligence Amplification – TRI
What is INTELLIGENCE AMPLIFICATION? What does …
Nobel Prize in Physiology or Medicine External links:
Nobel Prize in Physiology or Medicine – Ganfyd
Environmental science External links:
Earth and Environmental Science | Vanderbilt University
Environmental Science News — ScienceDaily
Muscle system External links:
Muscle System – Home | Facebook
LMS V2 Sale Live — Lean Muscle System
Muscle System, West Sacramento, CA. 213 likes · 2 talking about this · 1,334 were here. We are currently in the process of remodeling and will be open.
Mind uploading External links:
Mind uploading won’t lead to immortality – h+ Mediah+ Media
The Singularity Is Near: Mind Uploading by 2045?
United States Department of Defense External links:
United States Department of Defense Standards of …
[PDF]United States Department of Defense (DoD) DoD …
United States Department of Defense
Yoky Matsuoka External links:
NOVA – Official Website | Profile: Yoky Matsuoka
Yoky Matsuoka | HuffPost
Simulated reality External links:
Creating Simulated Reality. Building your technology…
mediafrontierwestminster.wordpress.com – SIMULATED REALITY
Research – SIMULATED REALITY
Integrated circuit External links:
integrated circuit – Everything2.com
[PDF]Integrated Circuit Basics – cie-wc.edu
Integrated Circuits – Engineering and Technology History …
Bachelor of Science External links:
Bachelor of Science | BS or BSc Degree | CollegeAtlas
Bachelor of Science (B.S.) Degree – Learn.org
Electrode array External links:
An electrode array is a configuration of electrodes used for measuring either an electric current or voltage. Some electrode arrays can operate in a bidirectional fashion, in that they can also be used to provide a stimulating pattern of electric current or voltage.
Utah electrode array – YouTube
Nerve cells External links:
New evidence touch-sensing nerve cells may fuel ringing …
Biomedical engineering External links:
Biomedical Engineering | College of Engineering
Biomedical Engineering – The College of New Jersey
Welcome to Duke BME | Duke Biomedical Engineering
Computer models External links:
Computer Models Flashcards | Quizlet
Hurricane Computer Models | Weather Underground
Computer models provide new understanding of sickle …
Synthetic telepathy External links:
Implant for Synthetic Telepathy | MIND TECH RESEARCH
Synthetic Telepathy | Psychotronics & Psychological …
“SYNTHETIC TELEPATHY”: Schizophrenia – Support Group
Action potential External links:
[DOC]Title: Neurons and Action Potentials – Welcome | GK12
http://gk12.asu.edu/files/Neurons and Action Potential Lesson Plan.doc
Action potential | physiology | Britannica.com
Action potential – ECGpedia
Nervous system External links:
Nervous system diseases – Des Moines University
Sympathetic nervous system – ScienceDaily
Human Physiology – Neurons & the Nervous System
US Department of Veterans Affairs External links:
[PDF]US Department of Veterans Affairs 2018 Per Diem …
Make the difference « The US Department of Veterans Affairs
Leg muscles External links:
Leg Muscles Flashcards | Quizlet
Leg Muscles Anatomy, Function & Diagram | Body Maps
When and How Should I Stretch My Leg Muscles?
Biomechatronics External links:
Research – UCLA Biomechatronics Lab
BioMechatronics Waterloo – Home | Facebook
Overview ‹ Biomechatronics — MIT Media Lab
Computational neuroscience External links:
Computational neuroscience (eBook, 2014) [WorldCat.org]
Computational Neuroscience Undergraduate Curriculum
Computational neuroscience (Book, 2010) [WorldCat.org]
Muscle spindle External links:
Muscle spindle – an overview | ScienceDirect Topics
Muscle Spindle Flashcards | Quizlet
Muscle spindle | anatomy | Britannica.com
Physical anthropology External links:
Physical anthropology | Britannica.com
RACE – History – Eugenics and Physical Anthropology
Omne vivum ex ovo External links:
Omne Vivum Ex Ovo? | Yahoo Answers
Louis Pasteur (1822-1895)Omne vivum ex ovo, Omne …
Omne vivum ex ovo | Pairodox
J. C. R. Licklider External links:
J. C. R. Licklider
J. C. R. Licklider in One Minute – YouTube
Neural engineering External links:
Neural Engineering System Design (NESD)
Peripheral Neural Engineering and Urodynamics Lab – …
Neural Engineering | Duke Biomedical Engineering