http://abc1008.com/ohapaso/profile/d_profile.html

怪しいお仕事！


■道上洋三のすべてを知っていただくページです。


道上洋三(どうじょう・ようぞう)
誕生日 3月10日
血液型 B型
性格 熱しやすく冷めやすい
モットー 「朝はいつも新しい」
趣味 ゴルフ、ドライブ、
楽器いじり(ギター、ピアノ、ドラム)
特技 耳を動かす


現在の担当番組
ABC-R「おはようパーソナリティ道上洋三です」
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ABC-TV「歴史街道」(ナレーション案内人)
月～金・よる6時54分～7時00分











｜ abc1008.com ｜ おはパソTOP ｜

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show details Sep 29 (20 hours ago)

　　　　　　　　　　　　　　　　　　　　　　　　　　　　　2007.09.29号
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森川博史さんにピッタリの最新オシゴト情報　　　　 produced by DIP
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こんにちは。はたらこねっと編集部のイヅミです。




【六本木・残業20時間程度】Javaプログラマ！
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[ 勤 務 地 ]　　　東京都港区（東京地下鉄日比谷線 六本木 徒歩5分
）
[ 給　　与 ]　　　月給 450000円～550000円
[ 期　　間 ]　　　長期
[ 勤務時間 ]　　　10：00-18：30　◇実働 7時間30分◇休憩 12：15-
13：15◇勤務曜日：月～金
[ 仕事内容 ]　　　【SI社内にて】WEBコンテンツ開発。担当工程は、
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[ お仕事NO ]　　　BBS003
[ 会社番号 ]　　　1265556　※フリーダイヤル応募の際に必要です
[派遣会社名]　　　株式会社ビッグブラザーズシステム 本社

▼ お仕事詳細＆エントリー
http://www.hatarako.net/hatarako/present.do?JOB_MGR_NO=7188963&USR_MGR_NO=1144492&KNSK_MGR_NO=1&mailbanner=jobmail&mdate=070929&adp_mid=703015&adp_lid=1


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[ 勤 務 地 ]　　　東京都渋谷区（山手線 原宿 徒歩5分ほど）
[ 給　　与 ]　　　時給 1700円～
[ 期　　間 ]　　　長期 紹介予定派遣のお仕事です！
[ 勤務時間 ]　　　10：00 - 19：00 （実働8時間00分）残業20～30時
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[ 仕事内容 ]　　　映画をはじめとするエンタテインメントサイトのデ
ザインからコーポレイトサイトならびに商品プロモ
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[ お仕事NO ]　　　XCCG1
[ 会社番号 ]　　　145017　※フリーダイヤル応募の際に必要です
[派遣会社名]　　　グローバル・テクノロジー・デザイン株式会社 本
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▼ お仕事詳細＆エントリー
http://www.hatarako.net/hatarako/present.do?JOB_MGR_NO=7189603&USR_MGR_NO=1144492&KNSK_MGR_NO=1&mailbanner=jobmail&mdate=070929&adp_mid=703015&adp_lid=1

http://www.media-lab.ne.jp/mt/archives/20web/web/index.html これは分かりやすいサイトかな？

通常WEBサイト制作業務
はじめに

株式会社メディア・ラボのメインとなる業務です。ひとくちにホームページ制作といっても目的に応じて手法は様々です。商品を販売するホームページを制作するのであれば、ショッピングの要素を強める必要がありますし、企業のホームページを制作する場合は、業務内容をいかに明確にアピールするかに重きをおきます。
近年パソコンの普及により、個人的にホームページを立ち上げるケースや、社員様がホームページを作るケースが増えております。弊社では、ホームページ制作のプロとして、個人で立ち上げるホームページと明確に差別化しなくてはならない責務があると感じております。
具体的に個人サイトとの明確な違い列挙いたしますと、プロとしてのサイト・コンセプト訴求力、プロとしてのデザイン性、プロとしてのサイト構造、プロとしてのシステム性、プロとしての検索優位性（SEO）、などが挙げられるでしょう。弊社ではこれらの全てを欠かすことなく、日々精進を重ねております。
ぜひ、ホームページ制作の際は、株式会社メディア・ラボにお気軽にご相談ください。

→お問い合わせはコチラから


投稿者 saso : 2005年09月02日 | コメント (0) | トラックバック

通常WEBサイト制作業務
ホームページ制作費用
ホームページを制作するにあたり必要な経費ですが、弊社では基本のデザイン費用とページ制作費用、そのほかプログラムを利用されたり、FLASHムービーを使用したりと必要に応じて金額が変わってきます。
簡単に費用をご説明いたしますと、

基本デザイン費用 ５００００円～

ディレクトリーデザイン費用 ５００００円～

ページ制作費用 １５０００円～
FLASH制作費用 ２００００円～
ロゴ制作費用 １５０００円～


となります。

コチラで明記させていただきました金額は、大まかな金額となりますが、専門知識のないお客様にとっては分かり難いものとなっているかと思います。イメージ的には、１０万円の基本制作費用とページに応じて１５０００円ごと増えていくであろうとイメージしていただければ分かりやすいかと思います。
例えば目安ですが、１０ページ程度のホームページを作成した場合、基本制作費用１０万円＋１５０００円×１０ページといった形になります。ページ制作にかかる負荷にもよりますが、概算このくらいとイメージしていただければ分かりやすいかと思います。
弊社では、よほどのことがない限り、最初にお見積もり差し上げた金額を超えることはありません。万が一、お見積り額を大幅にオーバーする際は、作業開始前にお話させていただきますので、ご安心ください。
ホームページ制作のご相談は随時行っております。お見積もりだけでも結構です。お気軽にご相談ください。

→お問い合わせはコチラから

投稿者 saso : 2005年09月02日 | コメント (0) | トラックバック

通常WEBサイト制作業務
ホームページ作成過程
ホームページの作成過程も初めてご依頼される方にとっては、不安要素ではないでしょうか？ホームページは会社の顔になる部分です。しっかりとコンセプトを決めて制作する必要があります。そのために必要な打ち合わせ、そして制作にかかる期間などを大まかにご説明させていただきます。

STEP１ 会社のホームページ・コンセプトのヒアリング
STEP２ ホームページのイメージと構造の提案
STEP３ お見積もり
STEP４ デザイン案提出
STEP５ サイト制作開始
STEP６ ドラフト版完成
STEP７ ドラフト版修正
STEP８ 完成


この様な流れを経てサイトは完成いたします。制作に要する期間は１ヶ月～２ヶ月程度です。コンテンツの内容に関しましては、お客様の方でご用意いただく必要があるものもありますので、コンテンツの集まり次第で、納期が延びる場合もあります。

投稿者 saso : 2005年09月02日 | コメント (0) | トラックバック

通常WEBサイト制作業務
完成後の修正費用
ホームページは完成した後、費用がかかるものです。多くのお客様において、新しくお客様に訴求したい内容が日々生まれるものだからです。販売形態をとる店舗さまのホームページの場合、毎月、場合によっては毎週、商品を追加しなくてはならないでしょう。企業さまの場合でも、求人情報や新商品の提案などのニュースは、早くホームページに反映させたいものです。
弊社で修正・更新を承る場合、月の作業量を見させていただき、月額契約で更新作業を行うケースもありますし、更新の都度精算するケースもございます。費用に関しては、作業に応じてお見積もりさせていただきますが、１回の更新作業で５０００円/ページ程度の費用が発生することと思っていただければ幸いです。
また、近年ではパソコンの普及により、お客様の方で更新されるケースもございます。この場合は、もちろん費用は発生いたしませんが、お客様の方で更新できる形にするために、若干通常の作り方と変える、または、更新しやすい形に作る必要がございますので、制作の際に費用が発生するケースもありますので、ご了承ください。
さらに、このほか、更新しやすいページを制作するという最たるもので、最近話題のBLOG（ウェブログ・ブログ）やXOOPS（ズープス）といったシステムを利用して制作する場合もあります。これらのシステムは、管理画面より更新を行うことが出来るツールです。今後のホームページ制作はこの方式が主流になると弊社では考えており、開発・ノウハウの取得に努力しております。

→BLOGサイト制作に関して

→お問い合わせはコチラから

投稿者 saso : 2005年09月02日 | コメント (0) | トラックバック

通常WEBサイト制作業務
検索優位性
弊社で制作するサイトは、検索優位性を高めるために、様々な手法を取り入れております。これはSEOと呼ばれるサーチエンジンでの検索ヒットを上昇させる手法で、意識して作られたサイトは上位に入ることが可能になります。
これは、素人ではなかなか出来るものではなく、常に意識してデザインしているプロだから出来る技だと考えます。
サーチエンジンのヒットに関しましては、様々な要素が絡み合いますので、検索内容によっては、上位に入ることが難しい場合もありますが、弊社ノウハウをフルに発揮し、サイトを構築いたしますので、ご安心ください。
なお、サイト完成時には、主要なサーチエンジンへの登録を行いますので、お客様でサイト登録する必要はございません。
予断になりますが、BLOG形態で作られたサイトは、検索優位性が高いと言われております。これは、テキスト（通常の文字）で書かれたものが多く、サーチエンジンのロボットから見やすい形態で作られていることが理由となります。

→BLOGサイト制作に関して

→お問い合わせはコチラから

投稿者 saso : 2005年09月02日 | コメント (0) | トラックバック



Introduction

It is a business that becomes a main in the media labs Ltd.. The technique is various according to the purpose even if it is said to the person rot Homepage making. If the homepage that sells a commodity is produced, it is necessary to strengthen the element of shopping, and when the homepage of the enterprise is produced, the emphasis is put the work contents appeals very clearly.
Recently, the number of the case to up on the Internet personally and case where the employee makes the homepage increases by the spread of the personal computer. Our company feels that there are a homepage privately started up and an obligation that should differentiate clearly as a professional of Homepage making.
If a clear difference with an individual site will concretely be enumerated, site concept solicitation power as the professional, design as the professional, site structure as the professional, and system as the professional and retrieval domination (SEO) as the professional, etc. will be enumerated. Devotion is descended without allowing our company to lack these all repeatedly every day.
Please feel free to the media labs Ltd. to consult in Homepage making by all means.

→The inquiry : from Cotira.


Contributor saso:2005 September 02,| Comment (0)| Track back

WEB site production business usually
Homepage making cost
A basic other program for the design cost and page production cost is used by our company, and the amount of money changes if necessary with sufficing by using the FLASH Movie though it is necessary expenditure when the homepage is produced.
When you will easily explain cost

Basic design cost 50000 yen?

Directory design cost 50000 yen?

15000 yen for page production cost?
20000 yen for FLASH production cost?
15000 yen for logo production cost?


It becomes it.

I think that it is the one not understood easily for the customer who doesn't have expertise though the amount of money that was going to be described clearly with Cotira becomes a rough amount of money. Imaging it, I think comprehensible if it can be imaged that it is likely to increase every 15000 yen according to the page of 100,000 circles for a basic production cost.
For instance, when the homepage of about page 10 is made though it is a standard, it becomes shape of 100,000 yen +15000 yen × page 10 for a basic production cost. I think comprehensible if it can be imaged as rough estimate though it depends also on the load that hangs to page production.
Our company never exceeds the amount of money in which the estimate is presented first as long as there is not great. It will talk before it begins to work, and relieve, please when greatly exceeding it to the amount of the estimate by any chance.
We will consult about Homepage making at any time. Even only the estimate is excellent. Please feel free to consult.

分かりやすいサイトに表現することが大事。

見やすく、分かりやすいサイトを目指し ...
200 x 150 - 10k - jpg
www.media-lab.ne.jp

プロジェクト一覧

１）ひまわりの栽培とバイオジーゼル油の研究

２）バシュンドラ・シティー内の分譲地を日本人向けの投資品目にする研究

３）SECOND LIFE　の仮想現実のプログラムの開発研究とこれのビジネス化の研究

４）2008年から始まるダッカ市内の地下鉄工事の受注に関する参入方法の研究

５）バングラデッシュと日本の間で出来る輸出入の促進の研究

６）NGO　のアカデミーの設立と運営の研究

Project list

1)Cultivation of sunflower and research of Baiogazel oil

2)Research that makes land for sale in lots in Bashundora city investment
article for Japanese

3)Research of development research into program of virtual reality of SECOND LIFE
and this making to business

4)Research of the entry method on order for subway construction of Dhaka city
that starts in 2008

5)Research of promotion of importing and exporting that can be done Bangradesh
and between Japan

6)Establishment of academy of NGO and research of management

　　

http://www.rfd.com/

Research Facilities Design is an architectural firm specializing exclusively in the programming and design of teaching and research laboratory facilities for college and university, industry, and governmental clients. As laboratory building design consultants, our staff is 100% committed to the achievement of client satisfaction and design excellence for laboratory facilities. We are a "hands-on" organization, characterized by extensive Principal involvement from the inception of programming and design through the construction process. Based in San Diego, RFD's practice is international, having consulted on over 900 laboratory building projects in 45 states throughout the U.S., as well as in the United Kingdom, the Middle East, and Asia.

Services
100% of our work is with the planning, programming, and design of laboratory related research and education facilities for Medicine, Education, and Industry. Because all of our time and efforts are focused on laboratory buildings, we have developed the staff for the most demanding projects. We are a service oriented firm committed to assisting the project team with the complete resolution of our client's needs and problems.

Innovation
RFD's experience working with scientists and interpreting their needs, combined with our knowledge of current design trends and technological advances in the laboratory building design field, provides the insight necessary to ensure the development of state-of-the-art facilities.

http://acs.cs.rug.nl/

Home | ContactACS ProjectAlgorithms for Complex Shapes with certified topology and numericsThe ACS project aims at advancing the state of the art in computing with complex shapes. Current technology can cope well with curves in the plane and smooth surfaces in three-dimensional space. We want to address a larger class of shapes, including piecewise smooth surfaces, surfaces with singularities, as well as manifolds of codimension larger than one in moderately high dimension.



TopicsIncreasingly demanding applications of this area, for example in CAD/CAM, computer aided surgery, realistic virtual environments, robotics, and molecular modeling in drug design and structural biology, require efficient and robust methods for computing with complex shapes. Current technology can cope well with curves in the plane and smooth surfaces in three-dimensional space. We deal with a larger class of shapes, including objects with sharp features.




Certified printed circuit layout. Modern CAD/CAM systems require certified and efficient geometry and topology processing.

Topics that ACS addresses are shape approximation (including meshing and shape simplification), shape learning (including reconstruction from sampled data and feature extraction), as well as robust modeling (including CAD operations).
ApproachA unique and ambitious feature of our approach is the guaranteed quality of all data structures and algorithms we plan to develop. Through certified topology and numerics, we will be able to prove that the output is topologically and numerically consistent, according to prespecified criteria. A software prototype, dealing with a restricted class of complex shapes, will demonstrate the feasibility of our techniques in practice.

ObjectivesThe ACS-consortium aims at extending the success of previous European projects CGAL and GALIA, in which it has been involved. Furthermore, the consortium has done pioneering work in the new research area of computational geometry for curves and surfaces in the project ECG. The project ACS consolidates and extends this scientific success.

It pursues this goal by focusing on methods for more general shapes. Our research concerns basic problems in geometric computing, and our line of research so far has produced a steady flow of scientific results enabling us - and the communities involved in geometric computing - to tackle problems involving increasingly complex shapes.
Research programWe aim at developing data structures and algorithms for complex shapes emphasizing: guaranteed quality, efficiency, and feasibility.

Guaranteed quality of shape modeling needs to cover the two closely intertwined aspects of geometric computing: numerical correctness and topological consistency. Efficiency in running time and storage space is the standard measure of good algorithm design. Feasibility means implementable solutions that work well in practice.






Within ACS we develop certified meshing software for industrial and medical applications.



The objectives of guaranteed quality on the one hand and efficiency and feasibility on the other hand are competing. Quite often feasibility in practice is achieved by heuristic solutions that compromise the quality of the results. It is a central distinctive objective of our research proposed to achieve all these goals at the same time.

The most direct way to obtaining certified numerical and topological results is to use exact arithmetic. However, for non-linear objects this may imply prohibitively expensive primitives. Our research concentrates on netting the effect of exact arithmetic without paying its cost, ultimately at speeding up exact computing methods to levels comparable to those of numerical computation. We will also investigate shape-approximation techniques which can work with simpler, more efficient primitives. An alternative approach is to bypass exact computing altogether and aim directly at an approximation of complex shapes. A major means to approximate complex shapes is through meshing (See Figure above). The partners have obtained major results for approximation of smooth surfaces and we aim for significant contributions for more complex shapes in the current project, extending the techniques to handle piecewise smooth surfaces with sharp features.
The geometric software library CGALMany of our basic scientific results have been transfered into mature software, that has found its way into public service and industry. The general purpose geometric software library CGAL is an example of a generic product used by many academic and industrial institutes today, that provides a well-organized, robust and efficient software environment for developing geometric applications.

CGAL has no equivalent counterpart in the world, and it has become a standard in computational geometry. Its impact both in academia and in industry is now becoming tangible, and the company GeometryFactory, one of the partners in the ACS consortium, is commercializing CGAL. The software library CGAL is a unique tool to develop further algorithms for curves, surfaces and more general complex shapes.
ACS software development and CGALThe development of mature software is the main technological objective of ACS. Many scientific results have been turned into CGAL packages, that can be purchased as add-ons to CGAL. In this respect, the role of our industrial partner GeometryFactory includes the assessment, trial, validation and packaging of the software developed in the project, thus guaranteeing a smooth transfer of new technology to application areas in academia, public service and industry.

To ensure interoperability of solutions and to further innovation we will release our mature software under an open source software license. The large community of CGAL users and developers facilitates the transfer and the dissemination of software packages developed in ACS. Reciprocally, ACS helps keeping CGAL at the very state of the art of geometric computing. Therefore, an important impact of ACS is the consolidation of Europe's leading role in this respect, a target that can only be reached if the contributors concert their actions at a European level.
ImpactThe work in geometric computing will bridge the gap between theory and practice by combining dexterity in theory on the one hand and expertise in robust geometric software development on the other. In earlier projects we have turned this type of study into a valid and sound research area.


Therefore, the results of ACS are of utmost relevance to all areas of geometric computing. The sites in the project cooperate with external partners in public services and industry, thereby transferring technology developed in ACS and earlier European projects to concrete situations arising in practice.





Feature extraction, relevant for CAD/CAM applications.

In this way, ACS provides the new techniques for application areas like CAD/CAM (meshing, shape reconstruction, feature extraction) medical imaging and image guided surgery, computer graphics, scientific visualization and virtual reality, robotics (motion and assembly planning), bioinformatics and molecular modeling. The transfer of this new technology from the academic partners to customers in industrial research is an explicit objective of ACS.



[Back to top of page] NavigationACS Home Partners Workshops Publications Software ACS in the news ACS members ACS board EC pages Related projects
NewsCGAL 3.3 released
ACS workshop on
Robust Shape Operations
26-28 September
© 2007 ACS Algorithms for Complex Shapes | Contact us

www.mpi-inf.mpg.de

Deutschmax planck institut
informatik Computational Geometry and EXACUS
Coordinators
Stefan Funke
Joachim Giesen



Researchers
Eric Berberich
Arno Eigenwillig
Stefan Funke
Joachim Giesen
Satish Govindarajan
Michael Kerber
Christian Klein
Soeren Laue
Domagoj Matijevic
Kurt Mehlhorn
Andreas Meyer
Dimitrios Michail
Rouven Naujoks
Ralf Osbild
Evangelia Pyrga
Imran Rauf
Michael Sagraloff



Research Area
Our goal is the design of efficient algorithms for the solution of geometric problems arising in different application areas. Some general subareas of interest are:

geometry-based design and analysis of wireless networks
robustness and exact computation
geometric optimization and approximation algorithms
applications in graphics and robotics
randomized algorithms
external memory algorithms


Sample Publications
Network Sketching or: "How much Geometry hides in Connectivity? - Part II"
Funke, Milosavljevic
Proceedings of the 18th ACM-SIAM Symposium on Discrete Algorithms (SODA) 2007
Hole Detection or: "How much Geometry hides in Connectivity?"
Funke, Klein
Proc. 22nd ACM Symposium on Computational Geometry (SoCG) 2006
(Approximate) Conic Nearest Neighbors and the induced Voronoi Diagram
Funke, Malamatos, Matijevic, Wolpert
Proceedings of the 18th Canadian Conference on Computational Geometry (CCCG) 2006
Probabilistic Fingerprints for Shapes
Mitra, Guibas, Giesen, Pauly
Proceedings of the 4th Symposium on Geometry Processing (SGP) 2006
The Flow Complex: A Data Structure for Geometric Modeling
Giesen, John
Proceedings of the 14th Annual ACM-SIAM Symposium on Discrete Algorithms (SODA) 2003


Projects
ACS: Algorithms for Complex Shapes with Certified Topology and Numerics (EU project 2005-2008)


Related Areas
Geometric Computing
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Virtual Reality
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You can buy any company in Japan.

Buying/Selling Factoring Portfolio ...
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【平成１９年９月１３日　最新入荷】
■株式会社（販売価格：５５万円）
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□本店所在地　　　東京都品川区
□会社設立年月日 平成１５年１月１０日
□事業内容 介護保健法による指定居宅介護支援事業
□資本金の額 金１０００万円
□その他　　　　 譲渡制限付き
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If I was a clever child,now I am very ordinaly man.

KONO YO ni "TANA-BOTA" ha NAI.



The Two Ways You'll Get Rich Investing
By Porter Stansberry

It was the proverbial "ton of bricks." The light bulb. A moment of tremendous clarity.

I was exchanging e-mails with my old friend Chris Weber a few days ago when it hit me... I sat there, and the idea resonated in me. It was almost a physical experience. I felt as though it was the culmination of thousands of hours of thinking. If you've ever worked for years trying to understand a puzzle or unlock a mystery... you would know how I felt.

Chris Weber, if you've never heard his name, is one of the greatest investors of this generation.

Chris began investing, at age 16, with the money he'd saved from working a paper route. Chris was an unusually astute and well-read 16 year old. He'd read Harry Browne's book about the coming dollar devaluation. He understood what the breakdown of the Bretton Woods agreement meant for the future of commodity prices – especially gold. So, when private ownership of gold was legalized in 1974, Chris started buying gold coins. Before long, he was buying gold futures.

He'd discovered the bull market in gold, and he was wise enough to hang on until the very top.

By the late 1970s, he'd made a small fortune. And what he did next would make him truly wealthy. In 1981, Chris bought long-term government bonds, which were yielding 14%-16% at the time.

Imagine your wealth compounding at double-digit rates in government bonds. If you were making that much money in bonds, you'd be very reluctant to buy anything else. You'd be a very skeptical investor, only interested in the most extraordinary opportunities. Chris made enough money with his investing that he's never had to get another job, though he's worked through the years in various related endeavors, like writing investment newsletters and managing money.

And last week, Chris helped me understand the apparent incongruity of my approach to investing. Let me explain...

On the one hand, I've always been fascinated with new technologies and new trends. I recognized early in my career that buying small companies that are creating huge new markets was a certain path to wealth. But on the other hand... I'm drawn to the mathematical certainty and the numerical elegance of safe, deep value investing. The attraction to both types of investing seemed a contradiction.

But recently, Chris explained why I'm drawn to both sides of the investment ledger...

"There are only two ways people become wealthy investing," he said. "You can compound your savings over a long period of time, or you can buy into the early stages of major bull markets."

I'd never thought about it so clearly before. Chris' very simple explanation is exactly right. To grow wealthy as an investor, you've got to be able to do two things well.

First, you must understand the power of compounding. You must have the patience and fortitude to allow most of your capital to compound over a long period of time. In all truth, compounding returns combined with steadfast saving is the only reliable way to become wealthy as a passive investor. This is how the banker gets rich: He understands interest is something that should always be collected, never paid.

Second, you must be cognizant of long-term trends – particularly fundamental changes in technology and certain changes in the global macroeconomic environment. Using your knowledge, you must invest early in long lasting trends... and have the patience to stick with it.

I went through my own personal portfolio with these ideas in mind... and I realized I was mostly speculating in situations where a new bull market wasn't emerging. Whether I would make money or not didn't really matter... I wasn't invested in the long-term, big bull markets that would multiply my capital several fold. Likewise, I hadn't set up my safer investments so that they'd automatically compound.

Look at your existing portfolio. How many investments do you own that are designed to compound your wealth? How many investments do you own that are designed to increase your capital? I'd recommend you follow the 80/20 rule... and keep 80% of your money in investments that will safely compound your existing wealth. Put the rest to work in major bull markets.

Good investing,

Porter Stansberry

P.S. I've just published a report identifying the five absolute best places to compound your existing wealth right now. I call them Secret Investing Societies, and they are exactly how America's richest people build and protect their wealth. To find out more, click here.

John Doerr has gone half-Green; gets word to President

ジョンDoerr(谷の最もうまくいっているベンチャー投資家のひとり)がしばらく緑色の科学技術の戦争に向かう道にあります。
聴きにくくはありません。 彼は感動的な伝道師です。 彼は1990年代後半のインターネットブームの空気を入れました、それは史上での富の最も大きい法的な創造でした--そして、その(クラッシュの後の痛みにもかかわらず)真実があったと言って。

彼は、現在私たちが惑星を死ぬほど窒息させていると言います。 勿論、彼は以前、これを言ったことがあります。しかし、本当に、最近、最大の努力しています。 回転アウト、Doerr、および彼のチームは「終わりの油の中毒」言葉遣いをブッシュ大統領の組合の州のアドレスに挿入させるのに原因となりました。 私たちは、当時私たちの見出しでどれくらい正確であるかが分かりませんでした: 「ブッシュはシリコンバレーのDoerrを反響します--それは茎であるかもしれません」(エタノールについてとうもろこしの茎について言及しながら、忍び寄ってください)。

John Doerr, one of the valley's most successful venture capitalists, has been on the green tec www.siliconbeat.com/entries/2006/05/18/john_d...

John Doerr, one of the valley's most successful venture capitalists, has been on the green tech warpath for some time.
www.siliconbeat.com/entries/2006/05/18/john_d...