Where Technology and a Better Society Intersect

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welcome i'm terry kramer faculty director of  the easton technology management center and   i'd like to welcome you to this special event the  future of innovation working across boundaries for   transformative societal outcomes now we live in a  world today that's got huge opportunities but also   huge challenges in almost every sector there's an  important leadership call to action to understand   society's greatest problems and to identify  solutions to resource organizations appropriately   and ultimately to lead in a way that creates value  for all stakeholders whether that be shareholders   customers employees and society tonight's program  is a great example of the spirit of collective   effort which is essential to success this program  exemplifies an invaluable partnership between the   anderson school and the greater ucla community our  many students faculty and alumni who are committed   to innovation and advancements in healthcare and  sustainability i'd like to specially acknowledge   the los angeles department of water and power  rayton ucla's institute for carbon management   the ucla sustainable la grande challenge and  ucla health for their generous sponsorship   of this innovation challenge i'd also like  to thank ucla anderson's dean tony bernardo   for his continued support of this very important  cross-campus initiative and all the partners   we have worked with across campus that helped  us share this opportunity with their students   now i hope you learned from this program and it  encourages all of you to think about innovation   opportunities that can be transformative  in society and the many learnings that come   along with it specifically tonight we have two  objectives first is to share with you latest   areas of technology-based innovation and their  importance with a special focus on robotics health   care and sustainability our second goal is to  highlight the goals and three winning teams from   this year's easton center innovation challenge now  in terms of specifics we're going to begin with   a fireside chat with nan bowden co of everyday  robots a learning robot moonshot at alphabet that   was born at x the moonshot factory she'll describe  the latest areas of innovation with everyday   robots and their impact not just on individuals  but impact on enterprises and society this   conversation then will be followed by an overview  of our innovation challenge and we'll hear quick   pitches from the winning teams followed by q a  so i hope you find these discussions insightful   and invaluable in your own leadership journey  now as i mentioned i can't think of a better   keynote speaker than nan bowden chief operating  officer at everyday robots a learning robot   moonshot at alphabet that was born at x the  moonshot factory nan's got a very impressive   background she joined google in 2013 via an  acquisition into google's data center division   where she handled various strategic initiatives  as well as several mergers and acquisitions   at google she spent her career working at the  strategic intersection of technology and business   she helped found and scale google's cloud global  technology partners team which developed hundreds   of technology partnerships including  google cloud's foundational partnerships   with sap cisco and salesforce prior  to google she had a 19-year career   at miracom which is a caltech spin-off that was  a pioneer in high-performance computer networking   she started as a software engineer and later  moved into business roles such as evp cfo   member of miracom's board and ultimately  ceo she earned her phd and master's degrees   in computer science from caltech her phd research  runtime systems for fine-grained multi-computers   led her directly into her work at miracom where  she wrote the operating system that controlled   the company's first products she received her  bachelor's degree in applied mathematics from   university of alabama and is a proud ucla anderson  alum now for today's session i'm going to ask nan   a variety of questions that gets her view on a  variety of issues and then we'll go to slido for   a moderated q a the slido event code is easton1  the number one so just go to slidoslido.com and you can either enter in your own question or  upvote an existing one and again as a reminder the   event code is easton and the number one so before  i uh start out with my conversation with nan   we'd like to show you a brief video that'll  give you just a window into everyday robots robots today are still struggling  with doing the most basic things   the reality of robotics is that picking up a  cup of a table if a robot could do that in any   environment it was in kind of sitting next to us  that almost requires a nobel prize it's that hard   if we rewind prior to the mid 70s  mainframes were big very expensive machines   that required scientists to operate them they  weren't really accessible to everyone then the   microprocessor was invented and all sudden we had  the beginning of the personal computer evolution   it's called a chip computers are the future  they're everywhere because they're useful   they're doing things your home computer  to read the day's newspaper well it's   not as far-fetched as it may seem they became  these general-purpose machines that could do   multiple things and eventually the smartphones  that we carry around with us everywhere today   something very similar is happening in robotics  we've had mainframe robotics or industrial   robotics for 20 30 40 years and i think we're now  on the cusp of transitioning into everyday robots   what we are ultimately doing are building machines  that can live and operate among humans one day   our goal is to create a platform that enables lots  of different people to program and teach these   robots to do lots of different things we know  that that's gonna just have a huge multiplicative   effect where the robots are out there in the world  doing things that we never could have imagined and   helping people that's the goal i think robots  can add a tremendous amount of value to society   they'll work alongside us they'll be our partners  that's not where robots are today robots are very   simple machines can barely move around without  bumping into things hey robot let's go for a walk let's go so now it's basically in this uh  it's probably not the best thing um oh okay   okay okay okay okay all right that is  bad we should definitely cut that out there's this uh this thing called morvik's paradox  that states that in artificial intelligence the   hard things are easy and the easy things are  hard basic motor control perception you know   navigating a crowd at a baseball game or something  like that these things are not actually easy   they're easy for us because they have to be  otherwise we wouldn't survive so evolution   has prepared us over millions of years to be good  at the things that are essential to our survival   our brains weren't built to play chess  but they're so flexible and so capable   that we can sort of shoehorn them into this  weird problem and get them to do uh you know   planning and algebra and so on and it takes  us a lot of effort for machines they can do   algebra and math out of the box but the things  that are intuitive things that are common sense   those we have to actually help them do and that's  been one of the biggest challenges in robotics   nan what a great video you know starting out  you know with the complexity of what you're   trying to pull off against the upside of kind  of the gain and impact and the idea of machines   being right next to humans so first of all just a  big welcome it's great uh great to have you here   great thank you terry i've been very much  looking forward to it and seeing you and   having a great conversation about the innovations  well you know let me start out because you know   listening to your background introducing you and  kind of talking about your ceo role at miracom   and then going to google cloud and leading all  these global partnerships and now you know chief   operating officer on everyday robots just tell  us a little bit about the leadership journey   how did you get from place to place what were the  challenges opportunities as you as you moved along   well first of all i just i'm very grateful for  these opportunities i think it's been quite a   journey and i've really enjoyed each of those  chapters i think they've each led to the next   one i think from a leadership journey perspective  each of them um brought a challenge uh that was   more about what kind of impact can can i have can  this overall enterprise have how can we make that   impact larger um and you know particularly once  once i got to alphabet into google you know the   scale at which uh google and alphabet operate you  know just scaling you know both yourself and your   your impact in your project is just a huge  challenge no matter whether it's in a startup   or it's an you know a company like alphabet so  i think that the overall thing in my leadership   journey has been you know trying to follow a  vector of impact um and also trying to make sure   that i'm living the values that are they're really  important making sure that impact is for better of   my community you know my employer you know the  world and i think that's that's one of the great   things that i i feel very fortunate i've had the  opportunity to do that in a bunch of different   environments yeah and nana it's a very interesting  idea about scaling your impact how do you do that   how do you kind of think about am i really having  impact or is it just kind of in my head that i   think i'm having it versus really affecting you  know others and organizations around you yeah i   think a lot of it is being open and listening to  feedback um you know really inviting real feedback   not the people telling you how great you are but  uh here's how you could have more impact here's   a way that maybe i haven't seen a perspective  that others can see you know and i think that   when you have a culture of open transparency  and and feedback in your organization you can   you can hear those things which are sometimes hard  to hear but you can also be like okay well maybe i   should think about that and let me see if i can  i can explore that you know and have a have a   mindset of experimentation um and try things right  just that's one of the the great things about some   of the leadership training that i've had has  been in those kind of leadership labs you know   where you're trying something new and seeing how  it works so i think that that applies when you're   looking for more impact in your roles excellent  and so why don't we dive in now because we're   talking about now the innovation and the impact of  your impact um tell us about the everyday robots   project and you know if you want to start out with  a state of the union give us the broad landscape   about what's happening what are the offerings all  those good things yeah well i i'm excited about it   i can tell you some of it i can't tell you all of  it but uh the parts i can say is that we have had   a public launch last november which one that was  much more open about what the project is doing um   and in fact you can you can see some of our robots  having left the la as we call it left the lab   and operating inside commercial spaces inside  alphabet so that our website everydayrobots.com   has got some beautiful pictures and videos that  you can really get a sense about what we're up to   um but net net it's we've been bringing out the  robots and teaching them services um things that   they can do to help uh with everyday tasks so like  right now as i mentioned they're in commercial   spaces they're doing things like sorting trash uh  they're doing things like wiping tables cleaning   cafes you know so all of these tasks are um  important to understand that they are learned   they are not scripted they they're not programmed  in a way like industrial robots uh have been and   so when you talk to roboticists a lot of times you  you i mean if you if you're in the robotics game   you think well robots have been around a long time  but those robots are typically bolted to the floor   they're in some kind of um very controlled  environment they're in some kind of perhaps   um tele-opt you know where there's an operator  who's operating every bit of it when you start   saying like no in an unstructured environment you  know like an office building like a home like a   like in outdoors you know those kinds of  unstructured environments are so complex that   they cannot be scripted and programmed um some  people say that the kind of robotics challenge   that we're working on is like self-driving cars  it's at that level of complexity but the car's not   been invented and there are no roads you know so  you're like well wait a minute that's that's even   that's a really really complex problem so in part  you know thinking about when you're getting into   like business strategies or in just how you think  about solving these kinds of world impact problems   you first have to find the problem right you have  to been able to say okay well i think this is the   problem i think this is how we're going to go  about it and then do a lot of experimentation   to figure out if you're on the right track  yeah and on that topic nan how do you decide   what applications to focus on how much of it is  kind of do-ability how much of it is wow this is   going to solve a really big problem how much of  it is something else well you know that's that   is some of the art of innovation right being able  to to know that you're trying to do something new   but not so far out there that it can't actually  be done and you know x the moonshot factory has   some pretty well structured thinking on that you  know where it's a large problem with a radical um   you know radical approach and a breakthrough  technology those three like a venn diagram   of those three things you tend to find really  strong innovation um possibilities there but   but oftentimes you can find that well you know  it's not we're not really able to do that kind of   technology breakthrough yet maybe that's a decade  from now and so when you're in the sort of far   out innovation game you have to recognize that it  may be too soon or not this way uh and being able   to be really dispassionate about that is is one of  the great hallmarks i think more moonshot thinking   um you know in our case you know there's a lot of  experimentation with the robots and teaching them   things against the learning robot moonshot and  so the robots are being taught they're taught by   experience they're taught by simulation uh we had  a huge amount of simulation last year 240 million   robot instances where we were in simulating  the world the robots could learn in simulation   um so we don't just need the the physical world  for that so it's a it's pretty exciting to see the   technologies of like simulation and uh robotics  when you're actually out there in the field   learning things uh sort of coming together to  produce uh you know what the robots are learning   to do yeah and what applications i mean you're  talking about sorting trash and other things   cleaning cafes what applications are you most  excited about and you know what might we see you   know in the next few months the next few years  and beyond yeah i think as much as anything   understanding that robots are when they're in  an environment like a commercial space um that   that they're navigating a very complex space for  them and so the if you're seeing them clean a cafe   for example that cafe you know a human  walks in there and sees it with human eyes   and it looks like you know somebody's been  in the cafe a computer when they see that   um that that same cafe there's an enormous amount  of complexity that they have to first perceive   and then internalize and understand so when when i  see when you see their applications like uh wiping   the table for instance or sorting trash into  compostables and recyclables it may look like um   that the robots get better and better  and they're grasping better and better   what what we see with eyes is unbelievable  amounts of just the robot starting to see   if i grasp this cup this way and more successful  more often you know and so doing that you know   millions and millions of times in simulation you  start to see just better and better more natural   moving performance so it's pretty exciting to  see that across a bunch of different tasks yeah   and again analogous to autonomous vehicles where  the more test miles you go the better accuracy the   more safety correct and and also just the the more  that the robots understand what works and what   doesn't you know because if you think about how  humans learn as children that's a lot of what is   in childhood right you're learning how things work  how the gravity works how things uh how you grasp   things and it works better than if a different  way and so we're teaching robots that um is   a huge part of the moonshot knowing as it said in  the video that more of x paradox we live with that   every day that it's you know which is easy for  humans can be really hard for computers but also   vice versa and helping figure out these um these  kinds of learning uh services that we wind up with   blending the best of human and robot capabilities  is really what i find really exciting yeah and   um at the very beginning you know you made a  point and i think in the video as well about   these are machines living and working alongside  humans not per se replacing them um say a little   bit more about that and does that actually create  in its own way an adoption challenge is because   now you've got some machine next to you and this  feels very bizarre etc etc well you know it's uh   it's hard hard to express how quickly you get  used to the robots in your environment so like   if you were in our offices in mountain view i mean  literally the robots roll by my desks i don't know   how many times during the day i don't even notice  it you know they go by sometimes sometimes they'll   be like hi how you doing you know you speak to  the robot even though even though you know it's uh   it's not gonna speak back at least not uh not not  to me and you look at those kinds of um getting   used to things it's very quickly that you get  used to the robots in your environment and in fact   the robots are because they're on autonomously  navigating around our building you know they're   they're people walking in the same spaces that the  robots are are rolling around and the robots will   avoid the people they will make sure that they  don't get too close and all of that is so natural   now that you don't even think about it so i think  that's that's something that we don't see a lot of   robot resistance uh in fact one of the  interesting side effects of the pandemic has been   and there's even less resistance to having robots  in them in the commercial spaces and i think the   use of robotics during the pandemic has been very  very moved forward in terms of societal adoption   and so you're seeing a lot of people interested  in the way the world is going to be when we have   robots and humans working together uh much as  we have you know humans and computers working   together it's not there's less and less of us us  or them it's like no it's it's all of us together   and that's really the experience we're trying to  design yeah and so say more again about this idea   i'm trying to think i'm going back to my star trek  days i used to watch is it basically the idea here   is there's kind of a segregation of activities the  robots are off doing one thing they may be in the   same physical space you have humans or they're  actually interactive on multiple uh activities   they're actually interactive but in terms of  what they're each most capable of doing so you   look at robots they're able to do things that are  repetitive they're dull they're dangerous they're   not they're not things that necessarily humans  want to do a lot of and yet you say wait a minute   we've got robots that can do that but robots  can't do everything that the humans can do so   in a commercial space you'll have you know humans  who are providing some amount of supervision   or maybe some sort of help for the robots  but not you know they're not doing the same   jobs they're basically doing um what we would  think of as a transformed job so it's not like   it was the same as it was before it's a transform  job that involves both human and robotic labor   yep good so let me dive down again deeper about  what kind of society might look like here so   you know there's been an interesting study that  pwc has done saying when you look at robotics and   automation there's huge upside there they did a  report that said there could be up to 16 trillion   dollars in value added by 2030 in the global  economy separate report though predicted that   about 30 percent of all jobs and 44 of workers  with low levels of education are at risk of   automation their jobs going away tell us how you  look at the dichotomy between those two things   yeah it's certainly something we pay a lot of  attention to um and i think the the main way i   would think about it is that um it's not really  an either or in the way we see it that the jobs   are not okay it's a computer job or it's a human  job the a lot of the statistics that i've seen   are like so many more jobs than would be lost  by any calculation are going to be transformed   like a huge factor of it and if you think about  what the personal computer did for certain jobs   you know like maybe bookkeeping became accounting  became you know how we do the kind of modern day   um financial transactions we do now that you could  not envision that back in the days of you know   manual bookkeeping so what we're going to see with  these kinds of robotics advances especially in   general purpose unstructured environments is all  of those jobs transformed in some way so perhaps   a human being is suddenly able to do instead of  one of their uh their own labor um the value of   their own labor now maybe it's 10x you know what  they were able to have as a human because they're   involved in this transform job so that's what we  see is exciting is that it's it's transformation   of the way humans and robots work together much as  you saw the transformation of humans and computers   yeah and is there anything special that society  needs to do enterprises need to do individuals   need to do to make sure they're part of the track  of jobs getting transformed as opposed to just   not being there at all where they're not part of  that revolution occurring well i mean i personally   think you know education is is such a huge part of  what we're what helps people be able to have that   capacity for more impact um in whatever career and  field they've chosen i mean certainly education's   made all the difference for me not least you know  anderson and we can talk about that um but it is   something that people i think need to continue to  do um their education but also understanding where   where they can start to sort of plug into that um  that sort of economy i think you're going to see   more and more robotics out there in more specific  applications and the more people understand that   you know there's an ecosystem around robotics  that you know maybe it's not you you don't have   to be the person that's designing the artificial  intelligence maybe you're the person that helps   with uh you know the repair of them there's a  whole ecosystem that's going to be there for   uh for robotics just as you see with computers  yeah let me ask you nan you've got an interesting   personal kind of experience on giving back to  the community and thinking about kind of this   transformation that that goes on you were part  of google's effort to put in a green data center   in bridgeport alabama and this was the site of a  coal-fired power plant apparently where your dad   used to work and it changed the economy the jobs  tell us a little bit more about that and outcomes   and what motivated you to do that well i would  say that was one of the highlights of my career   certainly my time at google was helping with  that data center launch in northeast alabama i'm   originally from that part of the world and come  from very blue-collar backgrounds my father was   a maintenance electrician including at that uh  that plant back when it was a coal plant um and   so to see that full circle um where you know i was  able to come back to a place where my dad had been   uh but yet come back not in a cold plant you  know capacity but in a green data center um   was was really exciting um and to see the way the  community there reacted um because in places rural   places like alabama north alabama you know there's  often a sense of you're somewhat left behind or it   can be a sense of being left behind and instead  what we saw there was in fact some of the   the community leaders were saying we are on the  digital map now and our children in our schools   they know that they're on the digital map and that  they're part of this um global infrastructure that   google was bringing uh to that area and so  helping people um all across the world but   especially places that haven't had the  advantages like we have in california   having them have access to these kinds of  opportunities is really important certainly me   personally um and i love being able to be part of  it was you know when alphabet was doing that with   the data center yeah excellent wonderful wonderful  to hear other things you think that society needs   to do you start to touch on education other things  if you basically say listen a lot of our economy   needs to shift jobs need to transform technology  can create good outcomes what are the other   things that need to happen that enables successful  transitions as opposed to divides from occurring   well i i think the a lot of things that i think  helped better solutions overall come to pass or   when we think of things like involving the  externalities of the impact of various um   of various technologies meaning that that if  you just look at things where there's a little   bit of upside business-wise but you're not  really thinking about you know maybe in uh   in electric cars you know if you're not thinking  about the whole ecosystem of what does it really   take for that to be successful you don't  see the you don't see the kinds of big moves   of impact that you can if if both industry and  you know to some degree i'd say governments um   you know start thinking about this prob the  problems holistically how do we prime pumps   for new technologies i think that's one of the  challenges for especially when you have things   like electric cars you know or even self-driving  cars when you have a a you need a sort of   priming of the pump the technology needs to be  there but there also needs to be enough scale   to start to generate the benefits so um that's  something i think is is especially as technology   leaders and we need to be thinking about that  bigger picture not just our little piece of it   yeah and now without having to get too  quantifiable and all this we always kind of think   about how much of these issues does society own  like our government how much is it business owns   how much of it is individual needs to own if you  were to kind of say who owns the big parts of this   transformation who would it be well and i think  the you know the answers really we all do to   varying degrees you know i think this is partly  where individuals need to live values that are   that they can stand behind you know companies  need to stand i i actually am a huge fan of   mission based um uh especially innovation and i  think before i came to anderson i used to think   mission and value statements were kind of you  know like somebody puts that up on the website   it's not a big deal you know every mission looks  the same they all sound the same i actually uh   more and more see that as that's not that's  a bad mission if it could be any companies if   you really need to have like your your efforts be  something that's aligned to a north star mission   and the more that's aligned with impact and the  more that that's something that you can all stand   behind i think not only do you have better success  in in hitting that uh impact but you also start   to attract the people that see it the same way  and you start to have that cultural resonance   where you know like uh especially we have everyday  robots you know we're really excited about our   mission for helping people in their everyday lives  with robots so the people that want to come work   with us they're really excited about that mission  and you the more you're aligned with that and   you're public about it and you live it um i just  think a lot of good things happen um even to every   single day when we're making decisions about are  we going to do this are we going to do that i mean   we have that rubric we have that touchdown of what  our mission values are and if you operationalize   it like that it can really be powerful excellent  excellent so let me ask you a couple other   questions before we go to audience questions  there's a bunch of questions from uh from the   audience obviously tonight we're going to hear  from the winning teams on our innovation challenge   and their focus on two areas healthcare  and sustainability and you obviously got a   great background in technology and sciences and  leadership and innovation etc etc any thoughts   about those two areas and things that interest you  and and where you think they may be going well i   mean since i'm here talking robots i'll definitely  take it back to that i think there's so many   interesting things um you know in the healthcare  field and in sustainability where robotics is   going to make an enormous difference um there's uh  you know there's just so many applications in the   healthcare setting including things like um you're  transporting the kinds of materials you need in a   hospital the you know delivering drugs um being  able to bring water to a patient a nursing home   you know there's there's so many things like that  that you know that we'll be all spending decades   uncovering all the different ways that we might  be using these technologies uh and and one thing i   will say is these technologies are inevitable this  is a little different than uh i'd say smartphones   or personal computers it's inevitable that huma  that robots will be in our unstructured lives   doing things it's just a question of when and  how and who and you know that i think that's   really the exciting part um and sustainability  you know that i mentioned we're sorting trash you   know that is not just a hey we're sorting trash  should say how do we make a sustainable ecosystem   of you know so that recycling is really  something that that it continues to deliver   you know the kind of full um circle  that we want to see on reused and so i   think all of these things have benefits from  robotics but but they have more beyond that   because so much of what we as a society needs  to do is is focused on sustainability right now   and learning's nan from your work on robotics that  could inform innovation in other areas whether   it's health care sustainability or other areas  you know i think tackle hard problems when you can   right i mean this is uh i think from a business  setting obviously a lot of the economic rewards   come when you solve really hard problems but but  beyond that it's also just leaving a lasting mark   of you know what we're doing here and i i so  i i think being able to be in places where you   have that kind of impact being with like-minded  people and trying really um audacious things that   have a big impact uh is what i i definitely  recommend people try to find those you know   try to find those missions try to find the  people that believe it with you and then lean in   give it everything you got and hopefully you'll  you'll have that kind of impact yeah and on that   latter piece about kind of building the team  and being with like-minded people how do you do   that any advice for people about you know build an  organization that's got the right skills and style   right well one thing i'll say is that  you certainly don't want everybody   to be the same right i mean in the sense of that  was one of the great learnings i got at anderson   um when i when i showed up at anderson i  think the very first conference call i had   i was convinced that i had missed reading a paper  because one of the people on the call was talking   about you know the strategy netflix had followed  for something and and i thought i didn't read   that well the reality was i had read that paper  with a quantitative mindset he'd read it with   a strategic mindset so i was able to see that  wait a minute there's different ways of looking   at all of this and that was one of the  great learnings i had at anderson's just the   the power of a really diverse team where we  have different backgrounds different ideas and   different experiences and we could come up  with so much better solutions than any of the   kind of overly techy quantified folks we're doing  and so that that when i'm looking to build a team   i want to have a lot of different voices i'm  going to have a lot of different capabilities   i don't want to have any of those blind spots  um and and basically want to make sure people   are committed to the mission it's it's something  that that lack of commitment or the commitment   in the positive is contagious and so you really  want to make sure that people are brought in   excellent excellent let me ask you a couple last  questions related to leadership and then we'll   again go to the uh the audience questions so give  us you know your broad view about leadership here   and where you think it's going how  the requirements are changing etc   well i i certainly seen a lot of change um in  how leadership i think what how it works in the   current uh workforce um it i see more in uh being  able to put yourself out as a you know a leader   who's learning a leader who's on your own journey  you don't have it all figured out then we're all   working together to try to figure out the best  path forward being open to really constructive   but sometimes hard to hear feedback um not being  you know autocratic from the top that just really   does not work uh anymore if it ever did and being  able to be a vulnerable leader i think that's some   of the most powerful stuff i've seen over the  last three few years has been just some of the   work around being a vulnerable out there leader  um it's even beyond being a servant leader and i   i think that's been something i personally enjoy  that kind of environment where you know i don't   have it all figured out but together i think we've  got a pretty good shot of doing something amazing   and then uh last question for you what what is  necessary to get more women in technology we kind   of hear a lot about the imperative there what is  your view about what would create better success   um well in my career you know studying computer  science um and until now you know there's been   a lot of times when uh there were not very many  women in the room um and in that sense i have seen   it get better i think the way we continue to get  better and not just with with um gender diversity   but also with just diversity of the group is be  more open to our um the biases that we built in   that we didn't really mean to build in and this is  one of the things i've seen at least in computer   science education there's been some really great  innovation in places like harvey mudd where   they are not they're they're teaching the courses  differently than maybe when i took my freshman   chemistry courses they're more sorry my freshman  computer science courses they're more open to   project project-based they're more open to the  types of things that are more collaborative which   you know may or may appeal to more women at least  in those early stages but interestingly it appeals   to a lot of men too you know it's like it's  not just this gender difference it's more like   let's make sure we have an open way of people  contributing and frankly you know project-based   understanding of how to make a project deliver  is really what we do in the workplace every day   it's not about the loan coder at least not very  often and that's something i think the more we   do that kind of collaborative work transparent  values-based work um and i think you're going   to find that there's a broader adoption not  only among women but across a bigger swath   of the population excellent let me start taking  uh questions we got quite a few here the most   upvoted question how do you avoid unintended  biases and discrimination in your training data   um well you really need to make sure you know  what's in your chain data questions of course   about you know artificial intelligence um if  you have training data that's biased it's easy   to teach your your models uh something that you  don't want them to know uh which is uh you know   some biased outcome i think the being really clear  and explicit in what training data you're using   where it came from you know we spend a lot  of energy at alphabet on you know labeling   data and making sure we know exactly what  it's for um and then knowing what your you   know how much data you need to train is also  a key part of a lot of models so it's not   all the data that goes into a training set  it needs to be a pretty pretty clean set   okay good good another question how does  your teaching service approach change when   considering users or individuals with either  physical disabilities or neurodiversity   um read that one more time i want to make sure  i'm answering the right question yeah how does   your teaching service approach change when  considering users and individuals with either   physical disabilities or neurodiversity  you know i'm i i think when we're teaching   robots um you know we're teaching them in a broad  environment you know it's not just one where we   expect everybody to to be operating in the same  manner um in fact when we think about cleaning   tables you know we're we're expecting there'll  be people around of all kinds of different   um capabilities perhaps somebody in a wheelchair  sitting there and so in that sense it's making   sure the training data is legitimate making sure  we have a lot of experience making sure that we   have a broad view of of what we expect to see and  that we're continually learning i think this is   one of the things you see from self-driving cars  is that the world is so complex you need to be   continually learning um and making sure that your  your in your technologies are learning machines   excellent and is it fair to say nan on this we  kind of think about technology companies not just   google as an example it's kind of the heritage  was the super iterative uh approach to development   you know put something out you learn you try you  see and seems like what's starting to happen is   there's much more focus now about well wait  a minute where's the end state i'm trying to   get to what data am i using so this whole idea of  planned product design as opposed to kind of just   iterations is that fair to say or no no that's  kind of a one-off you know example uh no i i think   it's i think there is a lot of especially when  you get to artificial intelligence there has to be   some amount of direction about what we're trying  to to achieve but but then good product design   i i don't think that's changed fundamentally from  you know the earlier days where you really need   to be thinking about who is this for you know what  what's the customer benefit and what's the market   for it how do i go to market you know all those  things wonderful things they teach at anderson   that's that's still very much true it's that the  way we design the technology is is definitely   shifting towards some of these more you know  certainly machine learning uh kind of technologies   great another question what consumer applications  of robotics will be first to reach the mass market   well interesting i mean i think you already see  some of them um you know things like roomba you   know it was interesting and this may be helpful  for those folks studying product design when i   was in graduate school at caltech um back  before roombas we had a chip design class   where one of the the final project was let's  assume you want to make a vacuum cleaner   but yet you don't need to be there with your  big vacuum cleaner so like if i have to be   there then all of a sudden i'm going to want to  have a big vacuum cleaner that goes really fast   it has a giant motor and weighs a ton but  if i don't have to be there wait a minute   i've got a whole bunch of different design  spaces available to me now which is what   eventually you see with something like roomba  so when you see the the kinds of technologies   uh like that those are still special purpose um  they're still obviously got tremendous advances   in that technology but still a good ways to go  you're going to see more and more things like that   i think our moonshot is is beyond that in terms of  general purpose and very unstructured environments   learning that's something that i think you're  still starting you'll see that more and more   in robotic applications in the home you know  in hospitals in a lot of places okay good good   another question um in terms of um the  cafe cleaning example of the the road   robot they obviously have to be affordable there's  got to be an roi to get broad adoption how far   away do you think kind of that practical adoption  is going to be that's really it's really hard to   say i think the you know when you look at where  general purpose robotics is it's still very much a   moonshot in a can you really get to that last few  percent you know if you look at and when and how   you get to that last few percent of performance of  um of ability to to deliver something of value so   we're still a good ways away from that that's why  we say we've left the lab but we're still inside   um alphabet's offices now keep in mind alphabet's  got a lot of real estate uh and so it's actually   a great proving ground for technology a great  place to learn with um with very tech forward   people around but yet they're still people and  yet we're still working on providing that value   to really help people good let me take a last  question here and then do a a brief wrap up on   this um uh carrie asks a question china is looking  to construct a dam entirely via 3d printing   what is your perspective about robotic readiness  for critical infrastructure with no humans at all   well i i would say the technology is not there yet  um mostly in a when something doesn't go according   to plan uh you know that and that's something  i think in the data center world you know you   in google scales in the data centers you  know they're tremendous design tremendous   technology but there was always something  happening you know and in that sense i think   the ability for robotics to deal with a change a  fundamental change in the environment around it   is still pretty pretty challenging but that's  where i think learning robots is the answer   there because you can't program for everything  that might go wrong you need the robots to learn   and this is where something like simulation uh  can make a huge difference in helping us advance   much faster than we would in just ordinary  uh physical world and i think that that's   probably the key to a lot of this moving  forward fast enough to to generate impact   soon excellent and then let me do i always like  to do brief takeaways at the end of every uh   sessions kind of what did i learn let me  share what i took away and then you give some   upgrades on that and then obviously we'll have the  innovation challenge uh winners to give a readout   i had basically three buckets of messages from  you one is about the innovation in robotics itself   second one is about the enablers how do you kind  of think about what are the enablers required   for innovation to occur and then the third one  is leadership itself and a bunch of great advice   there so on robotics you know message is first  of all this is hard stuff when you said you know   autonomous vehicles you know it's actually more  difficult than autonomous vehicles and wow this   is pretty tough stuff so it's very difficult but  notwithstanding that you basically say they are   inevitable we are going to have it the variable  question here is the timing you know where but   it's not a question of are we going to have  robots and the the model here is robots with   humans not necessarily robots instead of humans  but working alongside which is a very interesting   model second kind of learning out of all this  are the enablers that allow transitions to occur   innovation to occur society to occur and your  first kind of message is no ecosystems know all   the different piece parts that are required to get  some good outcome and that can be you know schools   and education it could be partners it could  be app developers it could be a lot of people   in the mix but be cognizant about the ecosystem  and then think about you know your role in   leading a transformation because this will be a  transformation it's going to be a transformation   of work and jobs it's going to be a transformation  of you know how we do work etc tests etc etc   but be part of it as opposed to kind of  sitting on the on the sidelines the final   piece is on leadership and it was interesting  to hear all the different piece parts and   you know to me what i kind of heard is all of  these things are are all kind of part of a system   you can't kind of say well i'm going to focus  on innovation but not work worry about enablers   i'm going to worry about enablers but not worry  about leadership you got to do all this together   your messages on on leadership several things  tackle hard problems when you're thinking about   big opportunities don't be afraid of those number  two as a leader be reflective take in feedback the   more feedback you can take in the better you're  gonna get as opposed to insulating yourself   from uh from things think about the power of  the team and the diversity of the team from your   anderson experience one plus one needs to equal  three if you're really making all of that happen   um thinking about diversity and thinking about  bias and data and know what you're trying to   kind of work towards know what data you're trying  to use so that you've got a thoughtful approach   to uh innovation and then the final thing is be  mission based you know you know for all the people   think it's kind of fluffy and all that stuff it  actually if you're doing it right will translate   into responsible innovation um nan upgrades on  that did i miss anything on your your key messages   uh no i think i think you got it and you know i  think uh you know the more we're learning machines   and the more we're trying to putting ourselves  out there for having a greater impact i think the   better leaders will be the better our companies  will be the better our communities will be   and there's no reason we can't go for that you  know we don't always have to be saying oh it's   all about the profit motive it's all about this  there's actually a bigger picture that we can   all be part of yeah i i love the message it's  aspirational and it says avoid binary thinking   it's very easy to get into things are all good  or all bad and it's a it's kind of copping out on   the leadership imperative which is to find out how  you can get the good and mitigate the bad right so   excellent excellent and then you can stay with us  for a little bit uh after the the team's present   because i'd love to get your perspective on on  what uh what you hear yeah i'm looking forward   to hearing uh their pitches excellent excellent so  listen let me do this i want to share a little bit   i'm going to share my screen here and i want to  share a little bit about our innovation challenge   and what our innovation challenge is all about  so that when you hear the the student winners the   team winners you'll have a little bit of the the  context um here so two objectives to the easton   center cross campus innovation challenge you  know number one is just to create great levels   of innovation new product and service innovation  that primarily can focus on serving society so   that's the first objective second objective  is the more timeless piece which is saying   can we create through this innovation challenge a  set of learnings about innovation that can serve   future students future entrepreneurs so those are  the two objectives in the innovation challenge as   i mentioned earlier we have two tracks in the  innovation challenge one is focus on healthcare   and that's healthcare really thinking about the  use of technology to create solutions that are   going to improve accessibility affordability  improve overall health outcomes uh in the us   and abroad the second track is sustainability  and again it's the use of technology to create   sustainable solutions that improve water  energy food agriculture transportation and   or the ecosystems around them in the construct of  the innovation challenge we want all of our teams   to be cross-campus teams so all the teams  have had to have at least one mba and one   non-mba and then they can fill out the teams from  there but they've got to have that mixture of   talent and then all the participants have to  be a current ucla student fellow or post doc   in terms of the timeline of this innovation  challenge all the activity for what you're   going to see tonight started in the fall  so we had a kickoff event back in october   we had a series of workshops that help empower  all the teams to think about the peace parts   necessary for a successful venture and innovation  so whether that that be focuses on on workshops   on financial planning on how you assemble a team  product management how do you pitch all of those   things were going on in the fall then in the  winter we formally opened the team registration   process and each of the teams that submitted ideas  how to develop a business plan and that was by   mid-february and then we had a group of judges  look at the business plans that were submitted   and decide on a group of finalists those finalists  then we look in the spring presented uh about two   weeks ago so april 22nd and 29th to a group of  judges and as you know we announced the judges   just about a week or so ago and you're going to  hear from the winners of the innovation challenge   terms of criteria that are used for the innovation  challenge four key criteria first one is impact   the depth and breadth of impact on the enterprise  and on the society both of those things are our   key measures feasibility so we don't want just  kind of interesting ideas that actually can't be   executed on so all the teams had to demonstrate  a pathway to execution third criteria was   innovation we're looking for highly innovative  creative differentiated solutions not me too   solutions but things that are really going to move  the needle and then finally we we're evaluating   all the teams on their persuasion skills all of  them are going to have to raise capital they're   going to have to recruit teams they're going to  have to build partnerships etc and their ability   to persuade others uh is absolutely critical so  as you know uh two winning teams so tied for first   in healthcare uh in symmetry and then also  cervicore and then on the sustainability side   kelp magic and again you're going to hear from all  three of those teams all of this was possible as   i mentioned with a lot of support both internally  at ucla as well as external partners and then our   dean as i mentioned tony bernardo at anderson has  been instrumental in advancing this so big thank   you to all of the teams and what we're going to do  now is we're gonna start out with them and they're   gonna give literally just three minute pitches  about uh their uh their ventures so let's start   out on the sustainability track and i'd like  to welcome the kelp magic team all right well   thank you everyone for being here uh my name is  karen geary and i am representing team kelp magic so kelp magic is truly a cross-campus  collaboration with each member bringing   a diverse set of experiences and uh skill sets  so jessica is a phd student at the molecular   biology program uh greg just completed  his jb at ucla law while daniel and i are   2022 mba candidates at anderson so i'm here  today to talk to you about why kelp matters   kelps are a critical part of the marine  ecosystem and found off 25 of global coastlines   it is a keystone species providing resources  for marine species at all levels of the food   chain kelp cycles nutrients like phosphorus and  nitrogen cleaning water of nutrient pollution   globally seaweeds are estimated to sequester  up to 200 million tons of co2 each year which   is as much as new york state's annual emissions  kelp also supports a global agriculture industry   with commercial seaweed production valued at more  than 6.7 billion dollars globally with an annual  

growth rate of 10.9 kelp aquaculture is growing  faster than any other food production systems   kelp also serves as a habitat for commercially  important fish species and is used as feedstock   for avalon and other agricultural operations  it is an important bioproduct used across a   range of industries such as bioplastics  pharmaceuticals and animal feedstock but all these benefits are  being lost due to climate change   in recent decades increasing water temperatures  ocean acidification and new predators that are   more comfortable in warmer waters like the purple  sea urchin in california have decimated major kelp   forests along northern california's coast a marine  heat wave that started in 2014 contributed to   about 95 percent loss of kelp forests and  shuttered fisheries worth up to 47 million dollars   so scientists have observed mass die-offs of  kelp forests in australia and tasmania and   believe that uh kelp forests in france denmark  and england are at risk of total loss by 2050.   this is where we come in kelp magic is focused  on giving kelp forests a fighting chance in these   rapidly changing ocean conditions our solution  is an enhanced kelp that will preserve ecosystem   health and support a sustainable kelp industry  to do so kelp magic will use a patented crispr   methodology to genetically modify giant kelp  we'll first focus on designing kelp varieties   that thrive in warmer and more acidic oceans and  later optimize for other commercial uses such as   bioplastics pharmaceuticals as well as looking  into carbon sequestration crispr offers the   fastest most efficient and most precise approach  to gene editing resulting in a cheaper process   for selection and breeding beyond our core  product our anticipatory governance services   will facilitate responsible innovation  and sustainable environmental stewardship   kept magic applies knowledge of regulation to  expand the market and ensure social acceptance   of gene edited kelp kelp magic is an enabling  technology for the growth of this industry   and we will enhance this entire kelp ecosystem  the products and services will be important not   just in california which is our beachhead market  but globally across a broad portfolio of products   and this time i'd like to thank  you and take any questions okay and let's actually go to the next team  and then we'll take questions right after that   so in symmetry which is one of our health care  uh winners let's go to you and then we will uh   take the final health care team and then we'll  do a group uh uh q a sure thing and i hope   it looks like you guys can hear me well  i'm just gonna share the screen yep all right well thank you everyone my name is jeff  sepanyan and i'm here to introduce you all to   at symmetry uh what we saw in clinton uh  what we saw with the covet 19 pandemic it   actually highlighted the critical importance  of the clinical trials process to as being the   singular pathway to approving novel a life-saving  therapies now unfortunately clinical trials remain   extremely costly on average they cost around 20  million dollars extremely time consuming they can   exceed seven minutes or seven years and also  extremely operationally complex now these have   led to a number of challenges critical and core  to those challenges is really patient access to   those novel care within clinical trials if  you're receiving your care and you're lucky   enough to receive your care from institutions  such as ucla and the metropolitan center   you're lucky because ucla and institutions such  as us have both infrastructure as well as the   resources to have a broad and large clinical  trial portfolio unfortunately this isn't really   indicative of the greater population in fact  when we're considering uh cancer treatment uh   cancer clinical trials are still considered  the gold standard for many clinical trial   many cancer thera or many cancer treatments and  especially when you're looking at pediatrics   unfortunately only three percent of cancer  patients actually participate in clinical trials   and when you're looking at that three percent  it does not represent the diversity that we see   across our n

2022-06-03

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