Friday, August 4, 2017

Yesterday, French capital football club Paris Saint-Germain triggered a €222 million (about US$263m, £198m) buyout clause of Brazilian winger Neymar to sign him from FC Barcelona, making him the most expensive footballer of all time by breaking the previous fee record of Paul Pogba’s transfer from Juventus FC to Manchester United. Neymar signed a five year contract with Paris SG which runs until June 2022.

25-year-old Neymar made his professional debut for Santos FC in January 2009, netting 138 goals in 229 matches. He was signed by FC Barcelona in 2013. Since then, Neymar has scored 105 goals and provided 80 assists in 186 games for Barça. In four seasons at Camp Nou, Neymar won two LaLiga titles, three Copa del Rey trophies, and one each of Champions League trophy Supercopa de España. Neymar was part of Barcelona’s treble winning squad in 2014–15, and finished third in 2015’s FIFA Ballon d’Or. Neymar made an international debut at the age of eighteen. He has scored 52 goals in 77 games for Brazil.

Paris SG’s Qatari president Nasser Al-Khelaifi said, “Today, with the arrival of Neymar Jr, I am convinced that we will come even closer, with the support of our faithful fans, to realizing our greatest dreams”.

After penning a five-year contract, Neymar said, “I am extremely happy to join Paris Saint-Germain. Since I arrived in Europe, the club has always been one of the most competitive and most ambitious. And the biggest challenge, what most motivated me to join my new teammates, is to help the club to conquer the titles that their fans want.”

Neymar’s lawyer submitted a check of €222m to deposit Neymar’s buy-out clause at LaLiga’s headquarters, but it was rejected. LaLiga officials issued an official statement, which read, “We can confirm that the player’s lawyers came to the La Liga offices this morning to deposit the clause and that it has been rejected.[…] That’s all the information we are giving out at this moment.”

Later, Neymar’s legal representative delivered the check to FC Barcelona. A statement from Barcelona confirmed they received the payment and Neymar was no longer contracted to the club. The statement read, “On Thursday afternoon Neymar Jr’s legal representatives visited in person the Club’s offices and made the payment of 222 million euros in the player’s name with regards to the unilateral termination of the contract that united both parties.” ^{((es))Spanish language: ?Esta tarde, representantes legales de Neymar Jr. se han personado en las oficinas del Club y han hecho efectivo, en nombre del jugador, el pago de 222 millones de euros, en concepto de indemnización por la rescisión unilateral y sin causa del contrato que unía a ambas partes.} It also said, “the Club will pass on to UEFA the details of the above operation so that they can determine the disciplinary responsibilities that may arise from this case.” ^{((es))Spanish language: ?el Club trasladará a la UEFA los detalles de esta operación para que depuren las responsabilidades disciplinarias que puedan derivarse de este caso.} Financial fair play rules prevents European clubs from spending more than €30 million from their earnings. Paris SG was fined by UEFA in 2014 for violating financial fair play rules.

Manchester United’s manager José Mourinho, who spent about €105 million last season to sign Paul Pogba, and a reported fee of €75 million to sign Belgian striker Romelu Lukaku from Everton FC this season, said, “Expensive are the ones who get into a certain level without a certain quality. For £200m, I don’t think [Neymar] is expensive. […] I think he’s expensive in the fact that now you are going to have more players at £100m, you are going have more players at £80m and more players at £60m. And I think that’s the problem. […] So I think the problem is not Neymar, I think the problem is the consequences of Neymar.”

Liverpool manager Jürgen Klopp said, “I thought Fair Play was made so that situations like that can’t happen. That’s more of a suggestion than a real rule.”

French club Lille director general Marc Ingla, who had once served as Barça’s vice-president said, “It’s a blow for Barcelona. Neymar is an accelerator to this bright future of Ligue 1. The young talent pool we have here is the best in Europe. For sure we can still compete with PSG. Once you get on the pitch it’s 11 v 11 and all the transfer fees and salaries narrow a bit.”

Before the official announcement of the agreement, yesterday, Arsenal’s manager Arsène Wenger also remarked about the financial fair play and said, “Once a country owns a club, everything is possible. It becomes very difficult to respect the financial fair play because you can have different ways or different interests for a country to have such a big player to represent [that] country. It can’t justify the investments and looks unusual for the game. That’s why I always [support] football living with its own resources. You don’t look at the numbers in their absolute value anymore. Football has been for a long time out of normal society and the numbers are like the NBA in basketball, so it’s not comparable to normal life anymore. Those are the numbers. It was already out of context of society, so after it just becomes a bit extra. You cannot calculate what it brings in anymore, it’s just a number.”

On Wednesday, Neymar’s Lionel Messi posted on Instagram: “It was a great pleasure to have shared all these years with you, friend @neymarjr [Neymar]. I wish you good luck in this new stage of your life. See you tomorrow” ^{((es))Spanish language: ?Fue un placer enorme haber compartido todos estos años con vos, amigo @neymarjr [Neymar]. Te deseo mucha suerte en esta nueva etapa de tu vida. Nos vemos Tkm}.

Barcelona’s striker Luis Suárez dedicated an Instagram post for Neymar after Lionel Messi, and said, ” My friend i wish you the best in everything that comes!!! Also thank you for your support, for everything that i learned with you and for the unique moments that we spent together!!!! Keep like this and never change love you little bro” ^{((es))Spanish language: ?Amigo desearte todo lo mejor en lo que viene!!! También agradecerte todo el cariño que me diste, por lo que aprendí contigo y por los momentos únicos que pasamos!!!! Seguí así y no cambies nunca te quiero hermanito}.

Neymar has been assigned number 10 jersey.

Wednesday, April 2, 2008

“Localization of ‘SEMI Safety Guideline'”, executed by Safety and Health Technology Center of Taiwan (SAHTECH) and supervised by Semiconductor Equipment and Materials International (SEMI), was announced today in Hsinchu, Taiwan.

This localization included several fields on health and safety of semiconductor manufacturing, certification testing on electrical devices, evaluations on fire or natural diseases, and environmental issues on semiconductor manufacturing devices, etc.. Companies and manufacturers from the semiconductor industry also paid more attentions on this guideline because issues on carbon-savings, earthquakes, fire diseases, and environment-efficiencies were included into this guideline.

On the other side of the incoming trade show of 2008 SecuTech Expo, scheduled after 2 weeks at Taipei World Trade Center, not only main fields on security devices, information security, and fire & disease preventions, the digital monitoring will be a hot topic in security industry. For applications on fire & disease preventions, because its issues contained industrial applications and ESH (Environmental, Safety & Health) managements, if a company want to decrease the ratio of fire disease or earthquake, companies from safety and related industries should pay more attentions on disease preventions.

Sunday, May 28, 2006

Stardust is a NASA space capsule that collected samples from comet 81P/Wild (also known as “Wild 2) in deep space and landed back on Earth on January 15, 2006. It was decided that a collaborative online review process would be used to “discover” the microscopically small samples the capsule collected. The project is called Stardust@home. Unlike distributed computing projects like SETI@home, Stardust@home relies entirely on human intelligence.

Andrew Westphal is the director of Stardust@home. Wikinews interviewed him for May’s Interview of the Month (IOTM) on May 18, 2006. As always, the interview was conducted on IRC, with multiple people asking questions.

Some may not know exactly what Stardust or Stardust@home is. Can you explain more about it for us?

Stardust is a NASA Discovery mission that was launched in 1999. It is really two missions in one. The primary science goal of the mission was to collect a sample from a known primitive solar-system body, a comet called Wild 2 (pronounced “Vilt-two” — the discoverer was German, I believe). This is the first [US]] “sample return” mission since Apollo, and the first ever from beyond the moon. This gives a little context. By “sample return” of course I mean a mission that brings back extraterrestrial material. I should have said above that this is the first “solid” sample return mission — Genesis brought back a sample from the Sun almost two years ago, but Stardust is also bringing back the first solid samples from the local interstellar medium — basically this is a sample of the Galaxy. This is absolutely unprecedented, and we’re obviously incredibly excited. I should mention parenthetically that there is a fantastic launch video — taken from the POV of the rocket on the JPL Stardust website — highly recommended — best I’ve ever seen — all the way from the launch pad, too. Basically interplanetary trajectory. Absolutely great.

Is the video available to the public?

Yes [see below]. OK, I digress. The first challenge that we have before can do any kind of analysis of these interstellar dust particles is simply to find them. This is a big challenge because they are very small (order of micron in size) and are somewhere (we don’t know where) on a HUGE collector— at least on the scale of the particle size — about a tenth of a square meter. So…

We’re right now using an automated microscope that we developed several years ago for nuclear astrophysics work to scan the collector in the Cosmic Dust Lab in Building 31 at Johnson Space Center. This is the ARES group that handles returned samples (Moon Rocks, Genesis chips, Meteorites, and Interplanetary Dust Particles collected by U2 in the stratosphere). The microscope collects stacks of digital images of the aerogel collectors in the array. These images are sent to us — we compress them and convert them into a format appropriate for Stardust@home.

Stardust@home is a highly distributed project using a “Virtual Microscope” that is written in html and javascript and runs on most browsers — no downloads are required. Using the Virtual Microscope volunteers can search over the collector for the tracks of the interstellar dust particles.

How many samples do you anticipate being found during the course of the project?

Great question. The short answer is that we don’t know. The long answer is a bit more complicated. Here’s what we know. The Galileo and Ulysses spacecraft carried dust detectors onboard that Eberhard Gruen and his colleagues used to first detect and them measure the flux of interstellar dust particles streaming into the solar system. (This is a kind of “wind” of interstellar dust, caused by the fact that our solar system is moving with respect to the local interstellar medium.) Markus Landgraf has estimated the number of interstellar dust particles that should have been captured by Stardust during two periods of the “cruise” phase of the interplanetary orbit in which the spacecraft was moving with this wind. He estimated that there should be around 45 particles, but this number is very uncertain — I wouldn’t be surprised if it is quite different from that. That was the long answer! One thing that I should say…is that like all research, the outcome of what we are doing is highly uncertain. There is a wonderful quote attributed to Einstein — “If we knew what we were doing, it wouldn’t be called “research”, would it?”

How big would the samples be?

We expect that the particles will be of order a micron in size. (A millionth of a meter.) When people are searching using the virtual microscope, they will be looking not for the particles, but for the tracks that the particles make, which are much larger — several microns in diameter. Just yesterday we switched over to a new site which has a demo of the VM (virtual microscope) I invite you to check it out. The tracks in the demo are from submicron carbonyl iron particles that were shot into aerogel using a particle accelerator modified to accelerate dust particles to very high speeds, to simulate the interstellar dust impacts that we’re looking for.

And that’s on the main Stardust@home website [see below]?

Yes.

How long will the project take to complete?

Partly the answer depends on what you mean by “the project”. The search will take several months. The bottleneck, we expect (but don’t really know yet) is in the scanning — we can only scan about one tile per day and there are 130 tiles in the collector…. These particles will be quite diverse, so we’re hoping that we’ll continue to have lots of volunteers collaborating with us on this after the initial discoveries. It may be that the 50th particle that we find will be the real Rosetta stone that turns out to be critical to our understanding of interstellar dust. So we really want to find them all! Enlarging the idea of the project a little, beyond the search, though is to actually analyze these particles. That’s the whole point, obviously!

And this is the huge advantage with this kind of a mission — a “sample return” mission.

Most missions rather do things quite differently… you have to build an instrument to make a measurement and that instrument design gets locked in several years before launch practically guaranteeing that it will be obsolete by the time you launch. Here exactly the opposite is true. Several of the instruments that are now being used to analyze the cometary dust did not exist when the mission was launched. Further, some instruments (e.g., synchrotrons) are the size of shopping malls — you don’t have a hope of flying these in space. So we can and will study these samples for many years. AND we have to preserve some of these dust particles for our grandchildren to analyze with their hyper-quark-gluon plasma microscopes (or whatever)!

When do you anticipate the project to start?

We’re really frustrated with the delays that we’ve been having. Some of it has to do with learning how to deal with the aerogel collectors, which are rougher and more fractured than we expected. The good news is that they are pretty clean — there is very little of the dust that you see on our training images — these were deliberately left out in the lab to collect dust so that we could give people experience with the worst case we could think of. In learning how to do the scanning of the actual flight aerogel, we uncovered a couple of bugs in our scanning software — which forced us to go back and rescan. Part of the other reason for the delay was that we had to learn how to handle the collector — it would cost $200M to replace it if something happened to it, so we had to develop procedures to deal with it, and add several new safety features to the Cosmic Dust Lab. This all took time. Finally, we’re distracted because we also have many responsibilities for the cometary analysis, which has a deadline of August 15 for finishing analysis. The IS project has no such deadline, so at times we had to delay the IS (interstellar, sorry) in order to focus on the cometary work. We are very grateful to everyone for their patience on this — I mean that very sincerely.

And rest assured that we’re just as frustrated!

I know there will be a “test” that participants will have to take before they can examine the “real thing”. What will that test consist of?

The test will look very similar to the training images that you can look at now. But.. there will of course be no annotation to tell you where the tracks are!

Why did NASA decide to take the route of distributed computing? Will they do this again?

I wouldn’t say that NASA decided to do this — the idea for Stardust@home originated here at U. C. Berkeley. Part of the idea of course came…

If I understand correctly it isn’t distributed computing, but distributed eyeballing?

…from the SETI@home people who are just down the hall from us. But as Brian just pointed out. this is not really distributed computing like SETI@home the computers are just platforms for the VM and it is human eyes and brains who are doing the real work which makes it fun (IMHO).

That said… There have been quite a few people who have expressed interested in developing automated algorithms for searching. Just because WE don’t know how to write such an algorithm doesn’t mean nobody does. We’re delighted at this and are happy to help make it happen

Isn’t there a catch 22 that the data you’re going to collect would be a prerequisite to automating the process?

That was the conclusion that we came to early on — that we would need some sort of training set to be able to train an algorithm. Of course you have to train people too, but we’re hoping (we’ll see!) that people are more flexible in recognizing things that they’ve never seen before and pointing them out. Our experience is that people who have never seen a track in aerogel can learn to recognize them very quickly, even against a big background of cracks, dust and other sources of confusion… Coming back to the original question — although NASA didn’t originate the idea, they are very generously supporting this project. It wouldn’t have happened without NASA’s financial support (and of course access to the Stardust collector). Did that answer the question?

Will a project like this be done again?

I don’t know… There are only a few projects for which this approach makes sense… In fact, I frankly haven’t run across another at least in Space Science. But I am totally open to the idea of it. I am not in favor of just doing it as “make-work” — that is just artificially taking this approach when another approach would make more sense.

How did the idea come up to do this kind of project?

Really desperation. When we first thought about this we assumed that we would use some sort of automated image recognition technique. We asked some experts around here in CS and the conclusion was that the problem was somewhere between trivial and impossible, and we wouldn’t know until we had some real examples to work with. So we talked with Dan Wertheimer and Dave Anderson (literally down the hall from us) about the idea of a distributed project, and they were quite encouraging. Dave proposed the VM machinery, and Josh Von Korff, a physics grad student, implemented it. (Beautifully, I think. I take no credit!)

I got to meet one of the stardust directors in March during the Texas Aerospace Scholars program at JSC. She talked about searching for meteors in Antarctica, one that were unblemished by Earth conditions. Is that our best chance of finding new information on comets and asteroids? Or will more Stardust programs be our best solution?

That’s a really good question. Much will depend on what we learn during this official “Preliminary Examination” period for the cometary analysis. Aerogel capture is pretty darn good, but it’s not perfect and things are altered during capture in ways that we’re still understanding. I think that much also depends on what question you’re asking. For example, some of the most important science is done by measuring the relative abundances of isotopes in samples, and these are not affected (at least not much) by capture into aerogel.

Also, she talked about how some of the agencies that they gave samples to had lost or destroyed 2-3 samples while trying to analyze them. That one, in fact, had been statically charged, and stuck to the side of the microscope lens and they spent over an hour looking for it. Is that really our biggest danger? Giving out samples as a show of good faith, and not letting NASA example all samples collected?

These will be the first measurements, probably, that we’ll make on the interstellar dust There is always a risk of loss. Fortunately for the cometary samples there is quite a lot there, so it’s not a disaster. NASA has some analytical capabilities, particularly at JSC, but the vast majority of the analytical capability in the community is not at NASA but is at universities, government labs and other institutions all over the world. I should also point out that practically every analytical technique is destructive at some level. (There are a few exceptions, but not many.) The problem with meteorites is that except in a very few cases, we don’t know where they specifically came from. So having a sample that we know for sure is from the comet is golden!

I am currently working on my Bachelor’s in computer science, with a minor in astronomy. Do you see successes of programs like Stardust to open up more private space exploration positions for people such as myself. Even though I’m not in the typical “space” fields of education?

Can you elaborate on your question a little — I’m not sure that I understand…

Well, while at JSC I learned that they mostly want Engineers, and a few science grads, and I worry that my computer science degree with not be very valuable, as the NASA rep told me only 1% of the applicants for their work study program are CS majors. I’m just curious as to your thoughts on if CS majors will be more in demand now that projects like Stardust and the Mars missions have been great successes? Have you seen a trend towards more private businesses moving in that direction, especially with President Bush’s statement of Man on the Moon in 2015?

That’s a good question. I am personally not very optimistic about the direction that NASA is going. Despite recent successes, including but not limited to Stardust, science at NASA is being decimated.

I made a joke with some people at the TAS event that one day SpaceShipOne will be sent up to save stranded ISS astronauts. It makes me wonder what kind of private redundancy the US government is taking for future missions.

I guess one thing to be a little cautious about is that despite SpaceShipOne’s success, we haven’t had an orbital project that has been successful in that style of private enterprise It would be nice to see that happen. I know that there’s a lot of interest…!

Now I know the answer to this question… but a lot do not… When samples are found, How will they be analyzed? Who gets the credit for finding the samples?

The first person who identifies an interstellar dust particle will be acknowledged on the website (and probably will be much in demand for interviews from the media!), will have the privilege of naming the particle, and will be a co-author on any papers that WE (at UCB) publish on the analysis of the particle. Also, although we are precluded from paying for travel expenses, we will invite those who discover particles AND the top performers to our lab for a hands-on tour.

We have some fun things, including micromachines.

How many people/participants do you expect to have?

About 113,000 have preregistered on our website. Frankly, I don’t have a clue how many will actually volunteer and do a substantial amount of searching. We’ve never done this before, after all!

One last thing I want to say … well, two. First, we are going to special efforts not to do any searching ourselves before we go “live”. It would not be fair to all the volunteers for us to get a jumpstart on the search. All we are doing is looking at a few random views to make sure that the focus and illumination are good. (And we haven’t seen anything — no surprise at all!) Also, the attitude for this should be “Have Fun”. If you’re not having fun doing it, stop and do something else! A good maxim for life in general!

Tuesday, August 6, 2013

This past Sunday, Illinois Governor Pat Quinn signed into law a bill known as “Rocky’s Law” that requires Illinois high schools, through the local school district, to buy catastrophic injury insurance up to US$3 million or medical costs for up to five years, whichever one comes first, that covers student athletes. The insurance must cover student athletes while they are competing.

The legislation was named after Rasul “Rocky” Clark. In 2000, the Eisenhower High School football player became paralyzed from the waist down as a result of a tackle during a game. His school based health insurance covered the costs of his medical treatment. A legislator sponsoring the bill noted that the need for this type of insurance is rare. Clark’s mother attended the legislation signing. Her son died last year.

Before parents can claim money from school insurance, they first must pay out US$50,000. Schools have until January 1, 2014 to comply with the law. Schools cannot charge students more than US$5 to defray the cost of insurance. If a school district already requires student to be covered through private health insurance, they are exempted from this law.

Thursday, October 21, 2010

The Pacific Gas and Electric Company (PG&E) is facing several lawsuits, including one filed by residents of San Bruno, California, after a gas line exploded in their neighborhood on September 10, completely destroying over 50 structures, 37 of them homes. In their lawsuit, residents claim that PG&E knew the pipeline was “defective” and was a “ticking time bomb”. They further allege that the company was aware that the pipeline could fail, but did not act.

The lawsuit was filed by at least five families who resided in the Glenview neighborhood of San Bruno. The Danko firm who is representing the residents say they expect to file at least a dozen more lawsuits against the company alleging they were liable and responsible for the explosion and the damages that occurred as a result of it. “This wasn’t an accident. This was a foreseeable consequence of ignoring safety measures,” one attorney representing the families said. It has also been reported that several other wrongful death lawsuits have been filed against PG&E. Three people were killed in the explosion.

The explosion and subsequent fire was originally thought to have been a downed commercial aircraft. Live scanner communications at the time of the explosion had stated that fire departments from six different companies reported to the scene. Residents say that firefighters were not able to bring the blaze under control because the pipeline was active for at least 5 hours after the explosion.

Residents filing the lawsuits are seeking damages and removal of the pipeline from the neighborhood. Jim Ruane, the mayor of San Bruno, backs residents in their request to PG&E to remove the pipeline from Glenview. “We want our neighborhood rebuilt, and we want our people back,” he said. A PG&E spokesperson denied having officially received the lawsuits, but said: “We remain committed to our customers in San Bruno and will continue to be there to help rebuild the neighborhood.”

Friday, February 3, 2006

An Australian Senate inquiry into the abortion pill “RU486” has started public hearings in Melbourne. A controversial conscience vote on the issue to overturn laws which prohibit Australian women’s access to the drug, will be held in Federal parliament on February 9.

The Senate committee is considering a bill to remove ministerial control of the abortifacient drug Mifepristone – or RU486. Health Minister Tony Abbott says the issue of whether to allow women access to the drug “is one of principle.” Abbott, who is against abortion, insists he is the right person to control the drug’s use in Australia.

Besides its use internationally as an “abortion pill”, there may also be a small chance that it may help treat various other medical disorders including prostate cancer, breast cancer, and inoperable brain tumours amongst other conditions. Mifepristone is effectively banned in Australia, with Minister Abbott controlling whether it is made available.

The bill, sponsored by a group of female senators and MPs, would hand Mr Abbott’s powers over to the Therapeutic Goods Administration (TGA) – the body that controls all other pharmaceutical drugs in Australia. The bill seeks to have the TGA determine the drug’s availability and not the Health Minister.

Democrats Leader Lyn Allison, said she was “cautiously confident” the parliament will overturn the current arrangements when the conscience vote takes place. “Those who are in favour of the bill are saying this is a choice that ought to be available to women and that on the basis of the studies that have been done overseas it is at least as safe as surgical termination,” Senator Allison said.

Reproductive Choice Australia (RCA)say that medicine is placed at the whim of politics, saying that over 80% of Australians are pro-choice. A national survey found 87% of women aged 18 to 49 support a woman’s right to choose.

RU486 is available in much of western Europe and North America, but was effectively banned in Australia under laws initiated by now-retired pro-life senator Brian Harradine.

Christine Read, medical director of family planning group FPA Health, said Misoprostol, also known as Cytotec, is across the world to invoke contractions to expel the fetus after a woman had taken RU486. “It is used extensively in obstetrics and gynaecology for termination of pregnancy and to induce labour, so it’s used in the medical management of miscarriage,” Dr Read said.

Dr Sharman Stone, said yesterday the issue was not about Misoprostol, but rather that “the TGA should make the decision about any drugs – that is its job. Any other conversations about other drugs are simply irrelevant to this argument,” Dr Stone said.

Family First senator Steve Fielding says lifting a ban on RU486 would pave the way for do-it-yourself home abortions. “RU486 is different to other drugs in that it is an abortion drug which could see do-it-yourself home abortions,” he said in a statement. “The question is, should policy be made by bureaucrats or our elected leaders?

Senator Fielding claims Australians are worried about the high number of abortions in Australia, as reflected in submissions received by the Senate committee.

On Monday the committee will move to Sydney for a final day of hearings.

Tuesday, June 27, 2006

Ikeda Kanako, a 21-year-old senior student of the Meiji Gakuin University and the first daughter of celebrity surgeon Yuko Ikeda, was kidnapped at about 1225 (UTC+9), June 26, 2006, in Shibuya, Tokyo.

A bullet was fired and one officer slightly cut when police stormed a Kawasaki apartment to rescue the girl.

Kanako was dressed in a white light half-sleeved cardigan, blue jeans with a bistre belt made of leather, a spring green camisole and carried a bag of Vuitton when she was abducted at a bus stop.

She was found unharmed 13 hours later by Japanese police at a condominium located in Nakahara-ku, Kawasaki, Kanagawa. The young woman’s make-up was not disordered; Kanako’s long brown fringe was not disheveled at all and she was wearing what she had been when she was kidnapped.

The kidnapping of Kanako was a big story in Japanese media in June, 2006. The story appeared in many newspapers as the front-page news on June 27, 2006.

Kanako and her kidnappers had been in touch with her mother using Kanako’s mobile phone. The effort to free her was helped greatly by a woman who witnessed the moment Kanako was taken; she wrote down the license plate of the van and other details.

Police traced mobile phone calls and were able to locate the van in Kawasaki where they detained two of the kidnappers as they went shopping.

One conspirator Li Yong, 29, from China, led the policemen to the apartment and tricked Kaneo Ito, 49, from Japan, to open the door. Ito managed to discharge one bullet before being restrained by an assistant police inspector, the first man in the room.

The other man involved in the kidnap of Kanako was Choi Gi Ho, 54, from South Korea. Kanato was freed unharmed.

The Tokyo Metropolitan Police Department arrested three men on suspicion of conspiring to kidnap a woman and hold her to a reported 300 million yen ransom.