This document provides an organizational chart for Giga Information Group's research organization in 1999. Robert Soran is the Senior Vice President of Research and oversees the Office of Research Management. The office is led by Robert Soran, Marc Cecere, Merv Adrian, Craig Simons, and Larry Paul. The research organization has locations in Cambridge, Santa Clara, Norwalk/Northeast, Europe, and Atlanta/Southeast. Daniel Bednarek is the Director and Bonnie Hurwitz is the Vice President.
Nowadays, photography trends evolve and die quickly. In 2016, according to Deloitte, 2.5 trillion photos were shared and stored online, and 90% of them were taken with a smartphone.
With the new iPhone and Google's Pixel cameras, it appears 2016 will mark the final shift of photography to smartphones. How will technology and social media change photography in 2017? We have analyzed data from Depositphotos's search algorithms and collaborated with top designers and photographers in the industry to discover what's in demand. As a result, let's explore the significant trends that have emerged and trends that will continue to dominate visual communications in the coming year.
The presentation contains slides regarding various functions, components & uses of Wi-MAX. It compares the advantages of Wi-MAX over other technologies.
hashim salim
hashsalim@gmail.com
Whether due to illness or injury, organ failure is a worldwide problem and its only treatment is organ transplantation or tissue replacement. Although it’s the only solution in these cases, organs demand greatly surpasses the supply. Organs are usually obtained from people who recently have died (up to 24 hours past the cessation of heartbeat) or from people who are clinically brain dead and their body functions are maintained artificially, nevertheless living organ donation is becoming more frequent [1]. The increase of the organ demand has been raising ethical concerns, since this can result in offers or incentives for donation, profit on donated human organs or even exploitation of the disadvantaged. In the developed world most countries have a legal system that oversee organ transplantation, however in poorer countries a black market has been arising, enabling those who can afford to buy organs, exploiting those who are desperate enough to sell them
Bioprinting was defined as the use of material transfer processes for patterning and assembling biologically relevant materials- molecules, cells, tissues, and biodegradable biomaterials with a prescribed organization to accomplish one or more biological function. This is a developmental biology- inspired approach to tissue engineering and is based on the assumption that tissues and organs are self- organizing systems, and that cells and especially micro tissues can undergo biological self- assembly and self- organization without any external influence in the form of instructive, supporting and directing rigid templates or solid scaffolds.
Bioprinting or the biomedical application of rapid prototyping, also defined as layer- by- layer additive biomanufacturing, is an emerging transforming biomimetic technology that has potential for surpassing traditional solid scaffold- based tissue engineering. It is a rapid prototyping technology based on three dimensional, automated, computer-aided deposition of ‘‘bioink particles’’ (multicellular spheroids) into a ‘‘biopaper’’ (biocompatible gel; e.g. collagen) by a bioprinter
Nowadays, photography trends evolve and die quickly. In 2016, according to Deloitte, 2.5 trillion photos were shared and stored online, and 90% of them were taken with a smartphone.
With the new iPhone and Google's Pixel cameras, it appears 2016 will mark the final shift of photography to smartphones. How will technology and social media change photography in 2017? We have analyzed data from Depositphotos's search algorithms and collaborated with top designers and photographers in the industry to discover what's in demand. As a result, let's explore the significant trends that have emerged and trends that will continue to dominate visual communications in the coming year.
The presentation contains slides regarding various functions, components & uses of Wi-MAX. It compares the advantages of Wi-MAX over other technologies.
hashim salim
hashsalim@gmail.com
Whether due to illness or injury, organ failure is a worldwide problem and its only treatment is organ transplantation or tissue replacement. Although it’s the only solution in these cases, organs demand greatly surpasses the supply. Organs are usually obtained from people who recently have died (up to 24 hours past the cessation of heartbeat) or from people who are clinically brain dead and their body functions are maintained artificially, nevertheless living organ donation is becoming more frequent [1]. The increase of the organ demand has been raising ethical concerns, since this can result in offers or incentives for donation, profit on donated human organs or even exploitation of the disadvantaged. In the developed world most countries have a legal system that oversee organ transplantation, however in poorer countries a black market has been arising, enabling those who can afford to buy organs, exploiting those who are desperate enough to sell them
Bioprinting was defined as the use of material transfer processes for patterning and assembling biologically relevant materials- molecules, cells, tissues, and biodegradable biomaterials with a prescribed organization to accomplish one or more biological function. This is a developmental biology- inspired approach to tissue engineering and is based on the assumption that tissues and organs are self- organizing systems, and that cells and especially micro tissues can undergo biological self- assembly and self- organization without any external influence in the form of instructive, supporting and directing rigid templates or solid scaffolds.
Bioprinting or the biomedical application of rapid prototyping, also defined as layer- by- layer additive biomanufacturing, is an emerging transforming biomimetic technology that has potential for surpassing traditional solid scaffold- based tissue engineering. It is a rapid prototyping technology based on three dimensional, automated, computer-aided deposition of ‘‘bioink particles’’ (multicellular spheroids) into a ‘‘biopaper’’ (biocompatible gel; e.g. collagen) by a bioprinter
It is a seminar presentation on a technology called Virtual reality. It key features are what is virtual reality, its history and evolution, its types, devices that are used for Virtual reality and where virtual reality is applicable.
IOT is connecting every physical object in the world using wireless technologies to track and control them from every where in the world...Every object is uniquely identified using ip addresses(IPv6)
What Exactly Is The "Internet of Things"?Postscapes
Over the last several years, stories of the technologies making up an Internet of Things have started to slip into public consciousness. As this is occurring, we believe the whole story of Smart Systems and the Internet of Things is not being told. Many of the dispatches coming in from the “front lines” of technology innovation are but fragments of a much larger narrative.
Postscapes collaborated with Harbor Research on an infographic to tell a more complete story about the Internet of Things.
From our perspective, this story is not just about people communicating with people or machines communicating with machines. Smart, connected systems are a technological and economic phenomenon of unprecedented scale, encompassing potentially billions if not trillions of nodes -- an Internet of infinite interactions and values...
What is Virtual Reality?
Why we need Virtual Reality?
Virtual reality systems
Virtual Reality hardware
Virtual Reality developing tools
The Future of Virtual Reality
By 2017 the Internet of Things market will be bigger than the PC, tablet and phone market combined. This report explains what the Internet of Things actually is and the impact it will have on social.
A snapshot of internet, social media, and mobile use in every country in the world. This report is part of a suite of reports brought to you by We Are Social and Hootsuite - read the other reports for free at http://www.slideshare.net/wearesocialsg/presentations
It is a seminar presentation on a technology called Virtual reality. It key features are what is virtual reality, its history and evolution, its types, devices that are used for Virtual reality and where virtual reality is applicable.
IOT is connecting every physical object in the world using wireless technologies to track and control them from every where in the world...Every object is uniquely identified using ip addresses(IPv6)
What Exactly Is The "Internet of Things"?Postscapes
Over the last several years, stories of the technologies making up an Internet of Things have started to slip into public consciousness. As this is occurring, we believe the whole story of Smart Systems and the Internet of Things is not being told. Many of the dispatches coming in from the “front lines” of technology innovation are but fragments of a much larger narrative.
Postscapes collaborated with Harbor Research on an infographic to tell a more complete story about the Internet of Things.
From our perspective, this story is not just about people communicating with people or machines communicating with machines. Smart, connected systems are a technological and economic phenomenon of unprecedented scale, encompassing potentially billions if not trillions of nodes -- an Internet of infinite interactions and values...
What is Virtual Reality?
Why we need Virtual Reality?
Virtual reality systems
Virtual Reality hardware
Virtual Reality developing tools
The Future of Virtual Reality
By 2017 the Internet of Things market will be bigger than the PC, tablet and phone market combined. This report explains what the Internet of Things actually is and the impact it will have on social.
A snapshot of internet, social media, and mobile use in every country in the world. This report is part of a suite of reports brought to you by We Are Social and Hootsuite - read the other reports for free at http://www.slideshare.net/wearesocialsg/presentations
(Beyond simplistic thinking and models)
This lecture is one of a series ‘Grand Challenge Subjects’ designed to make students think beyond, and challenge, the status quo; to question what they have been taught and the established industry wisdoms; to look beyond the tech media and journal papers; to think, be original, and be creative in the widest sense. This all culminates in a design and build/project program spread over several weeks.
The notion that the IoT will see everything connecting via the internet using a wireless domain dominated by 5G is not only simplistic, it is fundamentally impossible. A moments thought and a few simple calculations reveal that there is not enough energy on the planet to power 50 - 250Bn or more IoT devices operating in such a mode. So how are we really going to design and engineer the IoT to become a workable proposition? Here are some clues:
3/4G: Carries <5% of all internet traffic; WiFi ~55%; Wired LANs @ 45%
Mobile Network coverage is sadly lacking @ <90% by geography
Mobile Device batteries and charging are major limitations
The internet consumes ~12% of all our energy
Mobile Devices consume ~ 1% and rising
Mobile Nets consume ~ 10%
None of the above takes into account the cost of raw materials, production, distribution, delivery, support, disposal and the ecological impact of civil engineering, equipments, and people.
During this lecture the following surprising conclusions quickly emerge:
Most IoT devices will talk to each other and never connect to the internet
IoT devices will require a range of bandwidths and not just low bit rates
The majority of IoT devices will communicate over very short distance
Our current wireless architectures are outmoded by the IoT
We will most likely need something beyond UWB
The power per IoT device has to be <<1mW
Security will demand auto-immunity
This then is the starting point; from here we can design and engineer solutions for an, as yet, unspecified and dimensioned IoT fit for this century.
Grants Managers Share and Learn Webinar by WizeHIveWizeHive
Product Development Manager ans Director Sales host an interactive session with professional grants managers sharing common challenges and opportunities to solve them.
2. G ig a In fo r m a tio n G r o u p Sept 1998
G id e o n G a r tn er
C h a ir m a n o f th e B o a r d
C h ie f E x e c utiv e O ffic er
V i v i a n G u n t h er L ana H am on
E x e c u t i v e A ssi st a nt E x e c u t i v e A ssi st a nt
A sp en N ew Y o rk
G ig G r a h am D a n C la r k e
E x e c u tiv e V ic e P r e sid e nt S e n io r V ic e P r e sid e nt
C h ie f F in a nc ia l O ffic er
O p en G - 100
E xecu t ive Vicki Lynch Bonnie Hurwitz
A ssi st a nt Vice President and Director
Controller Sales Administration
Phil Weber Carol LePlar
M ichael M ooradian Dan M ahone y
Vice President Vice President
Senior Vice President Vice President
Human Resource s Conference and Publication s
Sales Advisory Researc h
Tom Chapman
Jeff Tarr Charlie Bacharach
Director
Director Vice President
Finance and Adminstration
Techn olog y M arketing
Jeff Barton Bruno Tourme
Director General M anager
IT Practices EM EA
8. Research Orbits
APPLICATION INFORMATION &
DEVELOPMENT & ERP KNOWLEDGE
SYSTEMS & PLATFORMS MANAGEMENT
Liz Barnett
Richard Fichera Dan Rasmus
Mike Gilpin
IT MANAGEMENT
& SERVICES SYSTEMS e-COMMERCE
Chip Gliedman MANAGEMENT Andrew Bartels
Will Cappelli
COMMUNICATIONS DESKTOP & MOBILE
& NETWORKING & SYSTEMS
Stan Schatt Rob Enderle
201. Research Organization R ESEA R C H
Dan M ahoney
S e n io r V P o f Re s e a rch
Offic e of R e s e a rc h M a na ge m e nt
R obert S oran, M arc C ec ere,
M erv Adrian, C raig S y m ons , Larry Paul J oan M anz ler
O f f ic e M anager, Sant a C lara
M ar c C ecer e M er v A d r i an C r ai g S ym o n s R o b er t So r an L ar r y Pau l Steve T el l een D an i el B ed n ar ek B o n n i e H u r w i tz
VP , R es earc h M anager VP , R es earc h M anager VP , R es earc h M anager Sr Vic e P res ident VP , R es earc h M anager Vic e P res ident D irec t or Vic e P res ident
C am bridge Sant a C lara N orw alk / N ort heas t Europe At lant a/ Sout heas t eBus ines s S t rat egies R es earc h S erv ic es C ons ult ing
J ulie G iera, VP R ob Enderle, VP R L Liz Barnet t , V P R L W ill C appelli, VP R L Phil M urphy , D ir A. Vanders t een, PA C at hy F lat ley , KC M gr Sus an J et t e, C S
Brad D ay , VP Eliz abet h H errell, S I A Andy Bart els , V P R L M ik e D odd, D ir M ik e G ilpin, VP R L C indy Liu, R A
C haris s a J oy c e, K C A
Laura D iD io, D ir Erin Kinik in, VP R L C hip G liedm an, VP R L N orbert Kriebel, SI A T om H arw ic k , D ir D iana Vas quez , R A
J im M adden, KC A
J ean P ierre G arbani, SI A J onat han P enn, SI A St ephanie M oore, D ir Bernt O s t ergaard, D ir R andy H ef f ner, D ir Luis M oy a, R A
Sandra Lef ebv re, K C A
U t t am N ars u, SI A D an R as m us , V P R L Kaz im I s f ahani, SI A R D ubrov s k ay a, R A M ic hael H andley , D ir T odd Siegel, R A
Sarah Kim , KC A
J im S laby , SI A St an Sc hat t , VP R L Lis a Pierc e, VP R L Pas c al M at z k e, I A M ik e G ros v enor, I A C T hom as , R A
Ken Vollm er, D ir C arl Z et ie, D ir C olin R ank ine, V P R L Louis e C ot t on, R A Penny G illes pie, SI A R on R ogow s k i, R A
Sheri G iglio, M R E
Art hur W illiam s , D ir Ken Sm iley , SI A Lou A gos t a, D ir R obert M c N eill, R A Paul H am erm an, D ir R y an H am ly n, R A
J ane S t anhope, SI A Bob Z im m erm an, D ir St ev e H unt , VP Su Beagley , KC A Euro Bret t H us s elbaugh, D ir Am anda Kahlow , PA Em m anuel O rding, SR E
D av id F riedlander, I A H ow ard Adam s , SC A By ron M iller, VP H eidi D ex t er, KC A Euro Ant onio F ranc o, D ir A. Breit enbac h, R A D onna Brignolo, R E
J oel Yaf f e, SI A C laire Sc hooley , S I A C onnie M oore, V P J os t H operm ann, D ir H arold W as hingt on, C A M at t M edlin, R A Pet er C rone, R E
Suz anne C ic c one,
Adria F ergus on, A A D ic k F is her, D ir T erily n P alanc a, D ir M ark Sharp, R A W S SC Laura P as t or, C A
SR E
J am es G rady , AA Annet t e Borba, R A Brow nlee T hom as , S I A N eil W ork m an, R A Phil R os c h, S C A C hery l H ines , R E
Kat hy H all, I A St ac ey Q uandt , AA Keit h G ile, S I A W S SC Sus an W iener, S C A C aroline M ew ing, R E
M ark R os enberg, AA R enee W oo, R A M argo Vis it ac ion, SI A Alis t air S t ew art , V P Pat ric ia H y de, R E
Bill Sheehan, AA C arla W oo, PS D av e N els on, SI A R ic hard T eles c a, S I A Laurel R um a, R E
Pet er M c A t eer, V P G ene Leganz a, S I A M ic helle Bros nahan, T W
W es t on H enderek , A A Kerin F lat ley , T W
Eliz abet h T hibault , R A
G illian G las s er, R A Eliana K im ball, R S A
J an S undgren, AA M arie R odgers , I S, Sr I nf o Arc h
Eliz abet h C ollinge, R A M argaret M c Bride, * S I A
J on E ric k s on, AA D av id T w iddy , * I A
W endy J am es , A dm in Arat hi N at h, * SI A
Aileen M onahan * I A
C arl Bohlin, R A
R esear ch T i tl es
AA - A s s oc iat e Analy s t R L = R es earc h Leader
C A = C ons ult ing Analy s t R SA = R es earc h S erv ic es Adm inis t rat or
C S = C ons ult ing Support SC A = S enior C ons ult ing Analy s t
D ir = D irec t or SI A = Senior I ndus t ry Analy s t
I A = I ndus t ry Analy s t SI S = Senior I nf orm at ion S pec ialis t
I S = I nf orm at ion S pec ialis t SR E = S enior R es earc h Edit or
KC A = K now ledge C ent er As s oc iat e T W = T ec hnology W rit er
M R E = M anaging R es earc h E dit or VP = Vic e Pres ident
PS = Produc t S pec ialis t VP M = Vert ic al P rogram M anager
R A = R es earc h As s oc iat e * I A = R SS I nf orm at ion Analy s t
R E = R es earc h Edit or * SI A = R S S Sr I nf orm at ion Analy s t