2014年1月18日 星期六

全球物聯網未來將啟動“工業物聯網” - 更將推向與人類互通全智物聯網( Welcome to the age of "internet Of Things" - A huge information system with predictive, sensing, understanding your speaking and from industrial internet to a future of information system can communicate with us )

The Chief Economist at General Electric, Marco Annunziata is a financial virtuoso with a passion for technology. His vision is "Machines increasingly communicate among themselves and with people. Mobile devices allow round-the-clock interconnectivity. Computers crunch terabytes of data. Such innovations have convinced economists from GE’s Marco Annunziata to Erik Brynjolfsson of MIT that the stage is set for a wave of productivity gains to rival the 10-year Internet boom that began in 1995." ( GE Marco Annunziata 預見未來 " 越來越多的機器之間及與人溝通。移動設備允許二十四小時的互聯互通。" 將延生『工業網際網路』),我更進一步預測人類將在 30 年形成『能與人類及機器互通全智互聯網』,網際網路及雲端智能就像空氣及我們心靈隨時跟我們及我們隨身機器做智能溝通;

Einstein said that "I never think about the future — it comes soon enough."

And he was right, of course. So today, I'm here to ask you to think of how the future is happening now. Over the past 200 years, the world has experienced two major waves of innovation. First, the Industrial Revolution brought us machines and factories, railways, electricity, air travel, and our lives have never been the same. Then the Internet revolution brought us computing power, data networks, unprecedented access to information and communication, and our lives have never been the same. ( 在過去的200年來,世界經歷了創新的兩大波。首先,工業革命給我們帶來的機器和工廠,鐵路,電力,航空旅行,讓我們的生活產生改變。那麼互聯網革命給我們帶來的計算能力,數據網絡,前所未有的獲取信息和溝通,讓我們的生活大改變 )

Now we are experiencing another metamorphic change: the industrial Internet. It brings together intelligent machines, advanced analytic, and the creativity of people at work. It's the marriage of minds and machines. And our lives will never be the same. ( 現在,我們正在經歷另一種巨烈質變化:工業互聯網。它匯集了智能機,先進的分析,以及人們在工作中的創造力。它是一種結合機器和人的思想。讓我們的生活和過去不一樣。)

In my current role, I see up close how technology is beginning to transform industrial sectors that play a huge role in our economy and in our lives: energy, aviation, transportation, health care. For an economist, this is highly unusual, and it's extremely exciting, because this is a transformation as powerful as the Industrial Revolution and more, and before the Industrial Revolution, there was no economic growth to speak of.

So what is this industrial Internet? Industrial machines are being equipped with a growing number of electronic sensors that allow them to see, hear, feel a lot more than ever before, generating prodigious amounts of data. Increasingly sophisticated analytic then sift through the data, providing insights that allow us to operate the machines in entirely new ways, a lot more efficiently. And not just individual machines, but fleets of locomotives, airplanes, entire systems like power grids, hospitals. It is asset optimization and system optimization. Of course, electronic sensors have been around for some time, but something has changed: a sharp decline in the cost of sensors and, thanks to advances in cloud computing, a rapid decrease in the cost of storing and processing data.


So we are moving to a world where the machines we work with are not just intelligent; they are brilliant. They are self-aware, they are predictive, reactive and social. It's jet engines, locomotives, gas turbines, medical devices, communicating seamlessly with each other and with us. It's a world where information itself becomes intelligent and comes to us automatically when we need it without having to look for it. We are beginning to deploy throughout the industrial system embedded virtualization, multi-core processor technology, advanced cloud-based communications, a new software-defined machine infrastructure which allows machine functionality to become virtualized in software, decoupling machine software from hardware, and allowing us to remotely and automatically monitor, manage and upgrade industrial assets. ( 因此,我們正在向一個世界裡,我們一起工作的機器不只是聰明,他們是輝煌的。它們有自我意識,它們能預測,它們據有反應性和社群性。)

Why does any of this matter at all? Well first of all, it's already allowing us to shift towards preventive, condition-based maintenance, which means fixing machines just before they break, without wasting time servicing them on a fixed schedule. And this, in turn, is pushing us towards zero unplanned downtime, which means there will be no more power outages, no more flight delays.

So let me give you a few examples of how these brilliant machines work, and some of the examples may seem trivial, some are clearly more profound, but all of them are going to have a very powerful impact.

Let's start with aviation. Today, 10 percent of all flights cancellations and delays are due to unscheduled maintenance events. Something goes wrong unexpectedly. This results in eight billion dollars in costs for the airline industry globally every year, not to mention the impact on all of us: stress, inconvenience, missed meetings as we sit helplessly in an airport terminal. So how can the industrial Internet help here? We've developed a preventive maintenance system which can be installed on any aircraft. It's self-learning and able to predict issues that a human operator would miss. The aircraft, while in flight, will communicate with technicians on the ground. By the time it lands, they will already know if anything needs to be serviced. Just in the U.S., a system like this can prevent over 60,000 delays and cancellations every year, helping seven million passengers get to their destinations on time.


Or take healthcare. Today, nurses spend an average of 21 minutes per shift looking for medical equipment. That seems trivial, but it's less time spent caring for patients. St. Luke's Medical Center in Houston, Texas, which has deployed industrial Internet technology to electronically monitor and MRIs to be analyzed in the cloud, developing better analytics at a lower cost. Imagine a patient who has suffered a severe trauma, and needs the attention of several specialists: a neurologist, a cardiologist, an orthopedic surgeon. If all of them can have instantaneous and simultaneous access to scans and images as they are taken, they will be able to deliver better healthcare faster. So all of this translates into better health outcomes, but it can also deliver substantial economic benefits. Just a one-percent reduction in existing inefficiencies could yield savings of over 60 billion dollars to the healthcare industry worldwide, and that is just a drop in the sea compared to what we need to do to make healthcare affordable on a sustainable basis.

connect patients, staff and medical equipment, has reduced bed turnaround times by nearly one hour. If you need surgery, one hour matters. It means more patients can be treated, more lives can be saved. Another medical center, in Washington state, is piloting an application that allows medical images from city scanners and

Similar advances are happening in energy, including renewable energy. Wind farms equipped with new remote monitorings and diagnostics that allow wind turbines to talk to each other and adjust the pitch of their blades in a coordinated way, depending on how the wind is blowing, can now produce electricity at a cost of less than five cents per kilowatt/hour. Ten years ago, that cost was 30 cents, six times as much. ( 類似的進步都發生在能源,包括可再生能源。配備了新的遙監控和診斷,使風力渦輪機相互交談並調整其葉片的槳距以協調的方式風力發電場,這取決於如何風在吹,現在可以產生電力在不到5美分成本每千瓦/小時。十年前,即成本為30美分,六倍之多。)

The list goes on, and it will grow fast, because industrial data are now growing exponentially. By 2020, they will account for over 50 percent of all digital information.

But this is not just about data, so let me switch gears and tell you how this is impacting already the jobs we do every day, because this new wave of innovation is bringing about new tools and applications that will allow us to collaborate in a smarter and faster way, making our jobs not just more efficient but more rewarding. Imagine a field engineer arriving at the wind farm with a handheld device telling her which turbines need servicing. She already has all the spare parts, because the problems were diagnosed in advanced. And if she faces an unexpected issue, the same handheld device will allow her to communicate with colleagues at the service center, let them see what she sees, transmit data that they can run through diagnostics, and they can stream videos that will guide her, step by step, through whatever complex procedure is needed to get the machines back up and running. And their interaction gets documented and stored in a searchable database.

Let's stop and think about this for a minute, because this is a very important point. This new wave of innovation is fundamentally changing the way we work. And I know that many of you will be concerned about the impact that innovation might have on jobs. Unemployment is already high, and there is always a fear that innovation will destroy jobs. And innovation is disruptive. But let me stress two things here. First, we've already lived through mechanization of agriculture, automation of industry, and employment has gone up, because innovation is fundamentally about growth. It makes products more affordable. It creates new demand, new jobs. Second, there is a concern that in the future, there will only be room for engineers, data scientists, and other highly-specialized workers. And believe me, as an economist, I am also scared. But think about it: Just as a child can easily figure out how to operate an iPad, so a new generation of mobile and intuitive industrial applications will make life easier for workers of all skill levels. The worker of the future will be more like Iron Man than the Charlie Chaplin of "Modern Times." And to be sure, new high-skilled jobs will be created: mechanical digital engineers who understand both the machines and the data; managers who understand their industry and the analytic and can reorganize the business to take full advantage of the technology. ( 這種新的創新浪潮正在從根本上改變我們的工作方式。我知道你們很多人會關注創新可能對就業的影響。失業率已經很高了,而且總有一種恐懼,創新將損害就業。創新是顛覆性的。但我想強調兩件事。首先,我們已經通過農業,工業自動化機械化生活,就業有所回升,因為創新是從根本上對增長。它使產品更加實惠。它創造了新的需求,新的就業機會。其次,有人擔心,在未來,只會有餘地工程師,數據科學家和其他高度專業化的工作人員。相信我,作為一個經濟學家,我也害怕。但仔細想想:就像一個孩子可以很容易地計算出如何操作一台iPad ,所以新一代的移動和直觀的工業應用將使生活更容易為所有技能水平的工人。未來的工人會更喜歡鋼鐵俠比的查理·卓別林“摩登時代”。並且可以肯定,新的高技能職位是:機械數字工程師誰了解雙方的機器和數據;誰了解他們的行業和分析,並可以重組業務,以充分利用該技術的管理人員。)

But now let's take a step back. Let's look at the big picture. There are people who argue that today's innovation is all about social media and silly games, with nowhere near the transformational power of the Industrial Revolution. They say that all the growth-enhancing innovations are behind us. And every time I hear this, I can't help thinking that even back in the Stone Age, there must have been a group of cavemen sitting around a fire one day looking very grumpy, and looking disapprovingly at another group of cavemen rolling a stone wheel up and down a hill, and saying to each other, "Yeah, this wheel thing, cool toy, sure, but compared to fire, it will have no impact. The big discoveries are all behind us." (Laughter)

This technological revolution is as inspiring and transformational as anything we have ever seen. Human creativity and innovation have always propelled us forward. They've created jobs. They've raised living standards. They've made our lives healthier and more rewarding. And the new wave of innovation which is beginning to sweep through industry is no different. In the U.S. alone, the industrial Internet could raise average income by 25 to 40 percent over the next 15 years, boosting growth to rates we haven't seen in a long time, and adding between 10 and 15 trillion dollars to global GDP. That is the size of the entire U.S. economy today.

But this is not a foregone conclusion. We are just at the beginning of this transformation, and there will be barriers to break, obstacles to overcome. We will need to invest in the new technologies. We will need to adapt organizations and managerial practices. We will need a robust cybersecurity approach that protects sensitive information and intellectual property and safeguards critical infrastructure from cyberattacks. And the education system will need to evolve to ensure students are equipped with the right skills. It's not going to be easy, but it is going to be worth it. The economic challenges facing us are hard, but when I walk the factory floor, and I see how humans and brilliant machines are becoming interconnected, and I see the difference this makes in a hospital, in an airport, in a power generation plant, I'm not just optimistic, I'm enthusiastic. This new technological revolution is upon us.

註: 根據分析之資料



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2014年1月15日 星期三

智慧型襪子 - 正說明 2014 ~ 2018 穿戴科技創新及新的創業方式將起飛 ( Smart socks - just shows 2014 ~ 2018 the wearable technological innovation and entrepreneurial take off )

智慧短襪「Owlet」:將穿戴科技革命,延燒至嬰兒床上

穿戴科技正風行,除了最受矚目的Google Glass,以及Epson健康管理智慧手錶之外,Owlet也瞄準父母市場,推出了可追蹤嬰兒健康狀況的智慧短襪。

這雙低過敏性的無線智慧短襪,將所有的電子元件放置在絕緣矽膠套中,以確保使用者不會有觸電危險,並運用在醫院及小兒科已行之有年的脈搏血氧定量計,透過紅光及紅外線來測量寶寶心跳速率及含氧量,還可追蹤體表溫度,以及在孩子熟睡時提供翻身警報,減低因面朝下睡姿而引起的窒息危險。

所有追蹤資訊,都會藉由藍芽4.0傳輸到Owlet app中(目前僅支援iPhone),但若是用戶沒有智慧型手機,也可選擇藉由USB傳輸線連結至電腦,或是連接到Wifi網路,並在任何連網裝置上查看數據。電池約可使用兩個整天,電量低的時候會有提醒通知。

Owlet智慧短襪目前還在群眾集資階段,有興趣的讀者可以上網站預訂,零售價為$250美金。


No one is more concerned with health than the mother of an infant, and with the rising availability of wrist-worn fitness tracking devices, it only makes sense that a baby-sized health tracker would pop up.

Meet Owlet, one of our hardware battlefield companies.

Owlet is an ankle-worn health tracking device for your baby, with an accompanying app that gives you a readout on your little bundle of joy’s health at any time.

Owlet tracks heart rate, oxygen levels, skin temperature and even provides rollover alerts during sleep.

It all works with a system called Pulse oximetry, which has been used in hospitals and in pediatrics for years. By using red and infrared lights, the “smart sock” as they call it, can measure heart rate and oxygen levels without being invasive.

The smart sock then transmits the information its recording to a smartphone app via Bluetooth 4.0. If you don’t have a smartphone, you can plug in the smart sock via USB to see metrics on your computer, or connect the smart sock to your home Wifi network to see readouts on any connected device.

The sock is hypoallergenic, wireless, and all the electronic components are housed in a resistant silicone case to make sure no one gets electrocuted.

Battery on the Owlet smart sock lasts up to two full days, with notifications letting you know when it’s running low on jive juice.

The company claims that the Owlet helps in more ways than just tracking your baby’s health, as it offers peace of mind for an often times stressed and restless mother.

Owlet is in the process of crowdfunding to bring the device to market, with a retail price of $250. If you’re interested in reserving a unit for yourself, head over to the Owlet website.

Sensoria Is A New Smart Sock That Coaches Runners In Real Time

Hardware maker, Heapsylon, debuted two new fitness products at CES 2014: a smart fitness sock that coaches users on their running techniques in real time and a heart rate monitor built into a T-shirt and bra. I got a hands-on demo with Sensoria Sock’s smartphone application that alerts users to improper foot technique and came away, shall we say, breathless.

Sensoria places sensors on the bottom of the foot so an app can give feedback on the most common types of runner errors. During my brief jaunt with the early prototype, Sensoria was able to quickly identify that I do, indeed, strike my heels first when I run and also that I had an inconsistent pace (cadence). Unlike an expensive running coach with a camera, the Sensoria gives real-time auditory feedback in a natural environment and can follow me around wherever I go. Initially, only professionals have had access to this kind of realtime, ubiquitous coaching.

As a new runner, I’ve been having all kinds of nasty knee and calf issues. This is a product my beleaguered body is begging for.

In addition to the Sock, Heapsylon also announced a shirt and bra with an embedded heart rate monitor. Heart rate chest straps are notoriously uncomfortable and an inconvenience to carry around. Never having to remember to bring my chest strap while I travel would be a pleasant bonus.

For the futurist, Heapsylon partnered with Google Glass developer, Race Yourself, to bring heads-up visual feedback to runners. Instead of runners having to sporadically check their heart rate, Google Glass will display it in real time, along with visual data on their foot placement.

Of all the wearables I’ve demoed at CES thus far, the Sensoria Smart Sock is probably the most useful. It identifies a population eager for self-improvement and delivers a product that conveniently solves a major health issue. I can’t wait for it to be available in the spring.


現在的穿戴產品很多都具備人體生物資料感應功能,這次 Sensoria 帶來了與眾不同的產品,那就是具備人體檢測功能的健身襪,還有一款配套腳鐲。這種襪子具備了紡織物感測器,可以感知你的腳步、速度、重量分佈、腳何時落地和步行的節奏,然後通過藍牙和腳鐲進行資料交換,最終傳到 App 上進行查看和管理。這種襪子四雙一組,再配上腳鐲總共是 US$200(約 HK$1,550 / NT$5,900),3 月 15 日的時候會開始出貨。

另外,在一月份和二月份 Sensoria 還會帶來具備紡織感測器的胸罩和體恤衫。我們會在 CES 上會大家帶來動手玩報導,看看這種新的智慧穿戴產品用起來有啥進步。

分析

2014年1月13日 星期一

Birdy 及 Ed Sheeran 民謠、嘻哈及另類搖滾 - 好好聽 ( I am inspired by Birdy and Ed Sheeran Love Songs )

Birdy(本名Jasmine van den Bogaerde,1996年5月15日-),英國女歌手、鋼琴家和作曲家,生於英國。2008年,她以十二歲之齡贏得Open Mic UK音樂競賽冠軍,因而成名。2011年11月7日,發表個人第一張同名專輯《Birdy》.

在2008年,正值12歲的Birdy贏得英國才藝比賽Open Mic UK,在2000人面前表演她自己的歌"So Be Free"。 Birdy 回憶在一場和BBC Radio 1的訪問中提到在Open Mic UK總決賽的經驗如同一個很酷的歷程,她解釋道這展現了她在童年時真正想做的事。 Birdy在2012年九月號The Telegraph描述她在Open Mic UK的想法與回憶。她說參加比賽為真實的興奮,慾望驅使她進入比賽。當她在表演時,和觀眾有前所未有的連結,這使她更愛表演。這個表演為她人生中的大事件,而從舞台上看盡(進)群眾感覺很棒。 在贏得Open
Mic UK比賽後Birdy對於比賽結果的回應是:就像我喜歡做的事一樣,但我從未想過我做得到。這是我的夢想,並不是參加Open Mic UK之後我才認為我有足夠的能力完成它。之前我只為我的家人表演,但Open Mic UK帶給我勇氣。

Ed Sheeran 本名:愛德華·克里斯多福(Edward Christopher,1991年2月7日-),以其藝名紅髮艾德/艾德·希蘭(Ed Sheeran)知名,為英國新生代歌手及詞曲創作人。目前為大西洋唱片 Atlantic Records公司簽約藝人。2011年8月發行個人首張專輯"Discography"拿下英國專輯排行榜 UK Albums chart.空降冠軍專輯。專輯首發單曲"The A Team"也拿下全英音樂單曲榜 UK chart.第三名的好成績。

Ed Sheeran 及 Birdy 結合之民謠、嘻哈及另類搖滾 playlist 真的好好聽,我聽的很感動,網友可以試聽,應該不輸 ICRT DJ 點歌的功力;








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