© 2015 B.W. Anthony, MIT

3 Points1. Collaborate with MIT in

Manufacturing Innovation and Entrepreneurship in education.

2. Collaborate with MIT in Medical Device Innovation and Manufacturing in research.

3. Data Analytics Parallels in Manufacturing and Healthcare.

Brian W. Anthony, PhDCo-Director, Medical Electronics Device Realization CenterDirector, Master of Engineering in Manufacturing Programbanthony@mit.edu

© 2015 B.W. Anthony, MIT

MIT

People in the Manufacturing Ecosystem

Company

MIT Students

Master of Engineering in Manufacturing (MEngM)Program

MIT Company

Your Employees

Medical Electronics Device Realization Center (MEDRC)

Challenges, PerspectivesChallenges, Perspectives

Challenges, PerspectivesChallenges, Perspectives

© 2015 B.W. Anthony, MIT

MASTER OF ENGINEERING IN MANUFACTURING (MENGM) PROGRAM

How to Collaborate with MIT in

© 2015 B.W. Anthony, MIT

MengM Curriculum Elements• Design and Manufacturing

– Design for Manufacturing– Product Development Process

• Manufacturing Physics– Processes, Machines, Assembly, Process

Control• Manufacturing Systems

– Factory Design and Control– Supply Chain Design and Control

• Management and Global Manufacturing– Management for Engineers– Seminar in Global Manufacturing

• Group Projects in Industry

Group Project

Individual Work

Team Work

Mfg. Physics

Mfg. System

s

Prod. Design

Business

Master of Engineering in Manufacturing (MEngM) Program

© 2015 B.W. Anthony, MIT

What is the MEng in Manufacturing?• One Year, Non-Research Graduate Degree• Comprehensive Design and Manufacturing

Curriculum• Taken as a Cohort• Emphasis on Using Engineering Background • Introduction of the Systems Perspective• Project-Based, and Team-Based Curriculum• Strong Industry Connection

– 8 of 12 Months on Group Project in Industry. Master of Engineering in Manufacturing (MEngM) Program

© 2015 B.W. Anthony, MIT

Group Projects• Based in a Company• Teams of 3-4 Students• Solve Problem of Immediate

Value to Company and Pedagogically Aligned with the Degree

• During 8 of the 12 months of program

• Project Definition is Critical

– Product and Process Design for a Diagnostic Microfluidic Device

– Implementation of RFID (internet of things) for Product and Equipment Tracking in a Factory

– Process Development for a High Volume Factory

– Supply Chain Planning for New Products

– New Product Introduction (NPI) manufacturing line development

– …

Examples

Master of Engineering in Manufacturing (MEngM) Program

© 2015 B.W. Anthony, MIT

MEDICAL ELECTRONIC DEVICE REALIZATION CENTER (MEDRC)

How to Collaborate with MIT in

© 2015 B.W. Anthony, MIT

Hospitals, Physicians

MITMEDRC Companies

MEDRC - Model

• Each sponsored project jointly created by industry, academics, and clinicians maximizes chance of project success.

• Industrial scientist on-site at MIT company stays engaged, project stays relevant, technology transferred to the company.

• Early prototypes placed in “customers” (clinicians) hands in parallel with research technology development.

Employees

Challenges, PerspectivesChallenges, Perspectives

MEDRC at MIT does Medical Electronic Device Research with strong interaction between companies and physicians/clinicians.

Medical Electronic Device Realization Center (MEDRC)

© 2015 B.W. Anthony, MIT

Application Areas and Technology Examples• Wearable Devices

– Vital signs monitors including cuffless blood pressure

• Minimally Invasive Monitors– EEG measurements for Epilepsy patients

• “Point of Care” Instruments – “Lab on a Chip” for blood, urine, saliva analysis

• Imaging– Smart Ultrasound

• Data Communication– Body Area Network

• Pharma– Clinical trial of the future

Medical Electronic Device Realization Center (MEDRC)

© 2015 MIT, Brian W. Anthony

DATA ANALYTICS PARALLELS IN MANUFACTURING AND HEALTHCARE

© 2015 B.W. Anthony, MIT

Acquire Analyze Distribute

Data:

Use

Sensors

Information for defined Needs:

Data, through Analytics, to Actionable Information

Supply Chain

Factory

Machine,Product

Data Analytics Parallels in Manufacturing and Healthcare

© 2015 B.W. Anthony, MIT

Acquire Analyze Distribute

Data:

Use

Sensors

Information for defined Needs:

Data, through Analytics, to Actionable Information

Health Care System

Hospital

Patient

Data Analytics Parallels in Manufacturing and Healthcare

© 2015 B.W. Anthony, MIT

DATA ANALYTICS PARALLELS IN MANUFACTURING AND HEALTHCARE

Example: Volume Imaging for Process or Procedure Control

© 2015 B.W. Anthony, MIT

Volume Imaging for Process Control

ϴ

…H

eigh

t (Z

)

Direction of Scan (X)High Speed Camera

3 DOF Stage

Objective Lens

Hei

ght =

50

µmH

eigh

t = 1

7 µm

Hei

ght =

0 µ

mH

eigh

t = 3

3 µm

Dean Ljubicic, Brian Anthony

Data Analytics Parallels in Manufacturing and Healthcare

© 2015 B.W. Anthony, MIT

Volume Imaging for Procedure (Biopsy) ControlTylor Hess, Xian Du, Rahul Sheth, Anthony Samir, Brian Anthony

Core biopsy specimens in white light (top row) and NIR (bottom row)

3D biopsy sample imaging system.

Sample image at a sequence of viewing angles

0º

45º

90º

135º

180º

Data Analytics Parallels in Manufacturing and Healthcare

© 2015 B.W. Anthony, MIT

DATA ANALYTICS PARALLELS IN MANUFACTURING AND HEALTHCARE

Example: Constellation Analysis for Process or Physical “Health”

© 2014 B.W. Anthony, MIT

Constellation Analysis for Process “Health”

200 400 600 800 1000 1200 1400 1600

200

400

600

800

1000

1200

1400

1600

50 100 150 200 250

50

100

150

200

250

Calculated Grid Deformation Map

xy

Known grid fit to noisy data

1 mmFluorescentImage Carrier

GlassImpression Cylinder

Camera

UV-Illumination

Xian Du, Dave Hardt, Brian Anthony

Data Analytics Parallels in Manufacturing and Healthcare

© 2015 B.W. Anthony, MIT

Constellation Analysis for Skin HealthMechanical scanning system to take high resolutions images of skin

Image 1: Isometric View of

Camera‐Light Mount

Image 2: Side View ofCamera‐Light Mount

Ina Kundu, Ian Lee, Xian Du, Brian Anthony

Data Analytics Parallels in Manufacturing and Healthcare

© 2015 MIT, Brian W. Anthony

DiseaseAcuity(Severity)

Cost

ER

Office visit

Home

Summary Need

$$$$$$

Degradation of Conditionof Quality 

Cost

Failure, Shutdown

Monitor, Maintenance

$$$$$$

Product Realization (Design, Manufacturing, Support)

System

HealthcareSystem

Data Analytics Parallels in Manufacturing and Healthcare

© 2015 B.W. Anthony, MIT

3 Points1. Collaborate with MIT in

Manufacturing Innovation and Entrepreneurship in education.

2. Collaborate with MIT in Medical Device Innovation and Manufacturing in research.

3. Data Analytics Parallels in Manufacturing and Healthcare.

Brian W. Anthony, PhDCo-Director, Medical Electronics Device Realization CenterDirector, Master of Engineering in Manufacturing Programbanthony@mit.edu

1. Company Based Projects with the MEngM Program

2. Company / Hospital / MIT Projects in the MEDRC3. Data, through Analytics, to Actionable Information