Thursday, February 7, 2013

#1385 Marine Links Serco Spot-Fix Clock on Christmas Day to Sister’s JABS and JPATS In Rape of JonBenet

Plum City – (AbelDanger.net). United States Marine Field McConnell has linked spot-fix timing signals generated by Serco’s spread-betting clock at the U.K. National Physical Laboratory to his sister Kristine Marcy’s alleged use of Nortel Canada’s Joint Automated Booking System (JABS) and the U.S. Justice Prisoners and Alien Transportation System (JPATS) for the deployment of furloughed prisoners in the snuff-film rape of JonBenet Ramsey at midnight on NORAD Santa’s Christmas Day, 1996.

McConnell points out that by 1996 his sister had procured Serco keys to a centuries-old Admiralty spot-fix timekeeping method which gave her associates in the Senior Executive Service, the Small Business Administration and DOJ Pride Bureau of Prisons, support for synchronized MitM attacks on global crime-scene investigations, especially those involving murder for hire.

See #1:
Abel Danger Mischief Makers - Mistress of the Revels - 'Man-In-The-Middle' Attacks (Revised)

Prequel 1:
#1384 Marine Links Sam Cam Smythson’s Serco Clock to Princess Diana’s Pont d’Iena Spread-Bet Vig

Prequel 2:
Marine Links Sister Kristine Marcy’s Most Wanted JABS to Clinton Ambassador’s Rape



SERCO Owns the World, | Big Brother Watch

The Clock That Changed the World (BBC History of the World)

Star Chamber, SES, SOS Children Villages, Kristine Marcy

Perfect Murder Perfect Town-JonBenet and the city of Boulder

TIME & NAVIGATION - JOHN HARRISON'S TIMEPIECE 
by John N. Wilford 

An urgent petition reached Parliament on March 25, 1714. Certain "Captains of Her Majesty's Ships, Merchants of London, and Commanders of Merchant-men" wanted something done about the day's most pressing problem in navigation, the problem of longitude. 

If the elder Cassini thought he had solved the problem with those moons of Jupiter, he should have heard the profanity and obscenities being uttered on the waterfront or on any of the ships at sea. Those long, heavy telescopes and cumbersome pendulum clocks might be all right for some astronomer in Paris, but no seaman could use them to track and time a tiny Jovian moon from the rolling, tossing deck of a ship. There had to be a better way of finding longitude at sea. 

Until there was, ships could never be sure of their positions east or west of home port or anywhere else. They could never be sure if they were a few kilometers or many kilometers from a particular landfall, which would, in either case, probably not be very well mapped, also because of the longitude problem. Neither the explorers who found a place nor the cartographers who put it on the map, having themselves had only a rough idea of longitude, could have ever known exactly the position of the place. Thus, as long as the problem of longitude at sea defied solution, both navigation and cartography suffered. 

What affected the navy and maritime trade was no trifling matter to Englishmen. So Parliament voted to offer a reward "for such person or persons as shall discover the Longitude." The offer: L10,000 for any method capable of determining a ship's longitude within one degree; L15,000, within 40'; and L20,000, within half of one degree. A permanent board of examiners, composed of scientists and admirals, was given responsibility for evaluation proposals and judging the results of accuracy tests. This became known as the Board of Longitude. 

Since dead reckoning, magnetic declination, and Jovian satellites had been discarded, and the lunar method remained an uncertain prospect, there seemed to be only one other possible approach - a highly accurate mechanical clock to be carried on ship. The clock would keep the time of the prime meridian, whether at Greenwich or Ferro or Paris. By comparing this time with the local time at sea or on some distant shore, it would be possible to know one's longitude relative to the prime meridian. A superior clock just might be the solution, though as the eminent Isaac Newton, by then the president of the Royal Society, said in 1714. But its invention would not be easy. Appearing before a Parliamentary committee convened to consider the longitude petition, Newton said: "...by reason of the Motion of a Ship, the Variation of Heat and Cold, Wet and Dry, and the Difference of Gravity in Different Latitudes, such a Watch hath never been made." 

Could it ever by? This was the challenge that preoccupied a man named John Harrison for nearly all his working life. 

Harrison was twenty-one years old when Parliament announced the prize. He was born in 1693 at Foulby in Yorkshire, the eldest son of a poor carpenter. An attack of smallpox at the age of six may have been decisive in shaping his life. While convalescing, he became fascinated by a watch his parents, seeking to amuse him, had laid on his pillow. He never forgot that watch. In subsequent years young Harrison learned his father's trade, earned some extra money surveying land, and in the evenings read lectures on mechanics and physics. By 1714, he had learned to make and repair clocks, first as a sideline, then as his full-time trade. The more he worked with clocks, the more he applied his emerging inventive genius to improving the way they were built. 

For one thing, Harrison decided that pendulums could be improved upon. They were made of iron or steel rods, which contracted in the winter, making the clocks run fast, and expanded in the summer, causing the clocks to lose time. Harrison all but eliminated this fault with the invention of a pendulum resembling gridiron. It consisted of nine alternating steel and brass rods, so assembled that the different expansion and contraction rates of the two metals canceled each other out.

Another of Harrison's inventions was the "grasshopper" escapement, a new type of control device for the step-by-step release of a clock's driving power. His escapement was almost frictionless and required no oiling; it thus pointed the way to further improvements in clockmaking. 

In 1728, when he was thirty-five years old, this self-taught country clockmaker felt himself ready to enter the longitude competition. Harrison packed full-scale models of the gridiron pendulum and the grasshopper escapement, to show what he had done, and the drawings for the proposed marine clock, to show what he planned to do, and went to London in search of financial assistance. It was suggested that he visit George Graham, the country's foremost horologist. Graham must have been impressed by Harrison. He loaned Harrison money out of his own pocket and advised him to return home and build the marine clock he proposed. Harrison, a methodical man and something of a perfectionist, spent the next seven years building his "Number One", as it was later called. 

Harrison's clock was finished in 1735. Large and heavy, standing almost one meter tall, it was no thing of beauty. Harrison had eliminated as many moving parts as possible. Instead of using a pendulum, which had proven unreliable at sea, he designed a system of two large brass balances connected by wires. The motions of the two balances, of equal weight, were always opposed so that the effect of a roll of a ship on one would be counteracted by the other. A committee of the Royal Society, after examining the clock's mechanism, decided that tit was sufficiently promising to be worthy of a trial at sea. 

There is no record of how well the clock performed on the voyage, in 1736, to Lisbon. George Proctor, captain of the Centurian, probably reflecting the seaman's skeptical attitude toward new-fangled instruments, wrote, "the Difficulty of measuring Time truly, where so many unequal Shocks and Motions stand in Opposition to it, gives me concern for this honest Man and makes me feel he has attempted Impossibilities." On the return trip, aboard the Oxford, Harrison seems to have made a more favorable impression. Relying on his clock, he estimated the ship's position to be one and a half degrees west of the dead-reckoning calculations. He was proved right on landfall. 

Even so, the voyage to Lisbon and back was made along a well-known trade route following a roughly north-south course, which was hardly a definitive test of the clock. Harrison received a subsidy from the board and went home again to build Number Two. But when it was completed England was at war with Spain, and the Admiralty, fearing that the clock might fall into enemy hands, vetoed a sea trial. 

Harrison retired to work on yet another version, Number Three, which took him seventeen years to build. Then, without even offering it for sea trial, he turned to the construction of Number Four. The first three were all heavy, boxlike instruments, but not Number Four. It was more like a large pocket watch, about twelve centimeters in diameter, with a jeweled mechanism that was the product of years of exquisite craftsmanship. Into the clock had gone "fifty years of self-denial, unremitting toil, and ceaseless concentration," Harrison said, but he was finally confident that the prize was within grasp. "I think I may make bold to say," Harrison wrote, "that there is neither any other Mechanism or Mathematical thing in the World that is more beautiful or curious in texture than this my watch or Time-keeper for the Longitude." 

A sea trial for Number Four began in November 1761. Harrison, now sixty-eight years old and not up to a voyage to the West Indies, entrusted the clock to his son and co-craftsman, William. By arrangement with the Board of Longitude, the timekeeper was placed aboard the Deptford, bound for Jamaica, and secured in a case with four locks. The four keys were given to William Harrison, Governor Lyttleton of Jamaica, who was taking passage on the ship, Captain Dudley Digges, and his lieutenant. All four had to be present, with their keys to unlock the case at each winding. 

Nine days out the Deptford's longitude, by dead-reckoning, was 13 50' W, but according to Harrison's calculations, based on the timepiece, it was 15 19' W - a difference of nearly 160 kilometers. Harrison told a skeptical Captain Digges that if Madeira was properly placed on the chart they should sight land the next day. Despite his reservations, Digges held to Harrison's course. At 6 a.m. the next day, the lookout reported seeing land dead ahead. It was Porto Santo, the northeaster island of the Madeira group. The landfall of Jamaica was equally successful. The Deptford, following Harrison's predictions throughout the voyage, arrived three days before another ship that had sailed for Jamaica ten days earlier. Number Four was taken ashore and checked against Jamaica's longitude, as determined by astronomical observations. After allowing for the predetermined rate of error (2-2/3 seconds a day), the clock was found to only 5 seconds slow. This meant an error in longitude of 1.25' - or 1.25 nautical miles, 2.3 kilometers. Number Four had more than complied with the requirements for the great prize. 

On the return voyage, Number Four was put through the shocks and stresses of extremely stormy weather. Nevertheless, when it was checked back in England, its total error in longitude for the five-month round-trip voyage was 28.5'. The timepiece was within the limit of half a degree. But, if John Harrison had earned the prize, he had yet to win it. 

Harrison, when he sought to collect the money, encountered stubborn resistance from the Royal Society and the Board of Longitude, the very body that had encouraged him during the long years of labor. The board decided that the clock's performance could have been a fluke. Harrison was awarded L2,500 as an interim prize and was told that the full prize would be his only if he submitted his clock to an examination of its mechanism and to another and more exacting trial at sea. 

He had little choice but to submit. His son William embarked this time in March 1764 aboard the Tartar, bound for Barbados, with John Lindsay as captain. Once again, Harrison correctly predicted the landfall at Madeira and also at Barbados. And who should be at Barbados when Harrison arrived but Nevil Maskelyne, who had been sent out to compare Harrison's results with observations of Jupiter's satellites. The board was taking no chances. 

Number Four, however, had performed even better than on the voyage to Jamaica. The timepiece showed an error of 38.4" over a period of seven weeks, or 15.36 kilometers of longitude. Further calculations showed that, after the round trip, the error came to less than one tenth of a second a day. 

In resolution in early 1765, the Board of Longitude unanimously concluded that, "the said timekeeper has kept its time with sufficient correctness, without losing its longitude in the voyage from Portsmouth to Barbados beyond the nearest limit required by the Act 12th of Queen Anne, but even considerably within the same." But it still withheld the full prize, declining to pay more until Harrison had disclosed the secrets of his timepiece, so that it could be reproduced, and had turned over all four machines to the board. 

Harrison was an old man by this time, and his eyesight was failing him. "I cannot help thinking," he wrote to the board, "but I am extremely ill used by gentlemen who I might have expected different treatment from... I hope I am the first, and for my country's sake, shall be the last that suffers from pinning my faith on an English Act of Parliament." 

George III had an informed and sympathetic interest in technology. He had been so impressed by the accounts of the Tartar's voyage that he had granted Harrison and his son an audience at Windsor. And so Harrison now asked for another audience in which to state his case, the case for his Number Four. The audience was granted, and upon hearing the story, George III lost his patience. "By God, Harrison, I'll see you righted," the king declared, and so he did. 

Harrison's Number Five, which he had been ordered to build, was tested at the king's private observatory at Kew. George II took a daily interest in checking the clock's performance. In ten weeks the clock was in 4-1/2 seconds, and average of nearly 1/14 second per day. The kin needed no further proof, and instructed Harrison to petition Parliament for the full prize. 

Everyone in Parliament knew the petition had the backing of George III and that he was willing, if necessary, to testify in Harrison's behalf. This did not prove to be necessary. In 1773 Harrison received the balance of the L20,000 prize. 

"Longitude Harrison," as he was often called, died at his house in Red Lion Square in London on March 24, 1776, in the eighty-third year of his life. He had provided the instrument for bringing a new dimension to navigation and mapping, the dimension of longitude. The instrument was the earliest version of the modern marine chronometer. 

In the year of Harrison's death, James Cook sailed again to the Pacific, where he demonstrated beyond any doubt the utility of the chronometer in marine mapping. Nearly two centuries later, the honored guest at a dinner at 10 Downing Street was an American, who rose to propose a toast to John Harrison. His invention, the American said, enabled men to explore the Earth with precision and, when most of the Earth had been explored, to dare to build navigation systems for voyages to the Moon. "You, ladies and gentlemen, started us on our trip." The speaker was Neil. A. Armstrong. 

"Home 
SI International/Serco [Inference Serco operates inside National Security Agency to set up synchronized MitM attacks involving murder for spot-fix vig using NPL clock]
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Author/Researcher 
Tim Shorrock 

Headquarters 
1818 Library Street, Suite 1000 Reston, VA 20190 

Principal Agencies 
National Security Agency (NSA), National Geospatial-Intelligence Agency (NGA) 
Defense Information Systems Agency (DISA), Office of Naval Intelligence 
Air Force Information Warfare Center, Department of Defense 

Top Executives 
Edward J. Casey, Jr., Chairman and CEO 
Harry Gatanas – Senior VP, Defense and Intelligence Group (former NSA director of Acquisitions) 

Annual Revenue 
$510 million (2006) 

Intelligence Percent of Revenue 
48 percent 

Summary 
Ratings: 

Washington Technology Top 100: #44 (Note: last listing before Serco acquisition) SI International, Inc. of McLean, Va., is a key NSA contractor now owned by Serco Inc. of the UK, the world’s largest outsourcing company. SI runs some of the NSA’s support and management functions. Its niche is advising intelligence and defense agencies on their acquisition and outsourcing strategies. It also helps intelligence agencies as they shift from proprietary “stove-pipes” to integrating their IT systems with sister agencies and the Pentagon’s evolving Global Information Grid. GIG is the Internet-like system that will theoretically link military commanders, warfighters, and national collection agencies into a single classified network. 

In August 2008, SI was acquired by Serco Inc., which describes itself as a “a leading provider of professional, technology, and management services focused on the federal government.” SI International is now part of Serco’s North American division. See Serco’s press release. 

SI bought into many of its contracts by acquiring smaller companies holding specialized NSA contracts. Of particular importance was SI’s $30 million acquisition in 2004 of Bridge Technology Corporation, which had extensive contracts with defense intelligence agencies. Bridge “really gave us name-brand recognition within the intelligence community,” S. Bradford “Bud” Antle, SI’s former president and CEO, told investors during a 2006 Washington conference on defense investing sponsored by the Friedman Billings Ramsey investment firm. “The IC wants other players. They get a bit in-bred because they have a set of contractors that are clean with capabilities they’ve known forever.” For that reason, agencies are pleased when they “see an acquisition like us buying Bridge.” Corporate Information 

According to SI’s old website, the company specializes in “mission critical outsourcing.” That means SI International “is an expert in putting together mission-critical business process outsourcing (BPO) solutions for record management and processing, case management, workflow management, human resource services, and logistics operations. These outsourcing arrangements increase efficiency, productivity and quality of service, lower administrative costs, reduce office supply costs, enhance supervisory oversight over personnel, minimize time spent on unnecessary research and statistical analysis, and enable civilian agency and Department of Defense personnel to take on higher priority assignments. Given today’s global environment, government employees are routinely asked to take on more and more tasks with increasingly finite resources, which makes the need for these BPO arrangements even more acute.” CorpWatch Analysis 

Because of its high-visibility role as an adviser for the NSA, SI has filled its management team and board of directors with former high-ranking intelligence officials. Harry Gatanas, SI’s executive vice president for strategic programs, oversees the company’s business with the Pentagon and its intelligence agencies and remains with the company as Serco’s Senior Vice President, Defense & Intelligence Group. Gatanas came to SI directly from the NSA, where he was the agency’s senior acquisition executive and the contracting manager for Project Groundbreaker, one of the largest outsourcing projects ever undertaken by a federal government agency. Prior to coming to the NSA, Gatanas spent 30 years in military intelligence, where his duties included managing contracts for the Army.

Recent Contracts/Events 

In April 2008, SI announced that it was a member of an SAIC team that won a multi-award, indefinite delivery/indefinite quantity contract supporting the Defense Intelligence Agency (DIA). Under the contract, SAIC wrote in a press release, “SAIC will support the DIA mission with services in areas including foreign cultures, regional dynamics, illicit drugs, infectious disease and health, and emerging and disruptive technologies to provide effective analysis for the Defense Intelligence Enterprise.” SI’s latest contract with the NSA was signed in April 2008, when it won three “Enterprise Program Management” contracts with a potential value of more than $300 million. Under the contracts, SI will help NSA “upgrade its acquisition management services” and “modernize its information technology, systems and programs” (major subcontractors on the project include Booz Allen Hamilton and Lockheed Martin). In 2005, SI signed a three-year contract with the NSA to provide training in financial management, and in 2006 added a five-year $6.9 million “task order” to run the NSA’s human resources “welcome center” in Fort Meade

SOURCES 

Primary sourcing for this profile came from Tim Shorrock, ''Spies for Hire: The Secret World of Intelligence Outsourcing'' (Simon & Schuster/2008) and from DIA and company press releases. 

Email 
Info@si-intl.com
Phone 
+1-703.939-6000 
Website http://www.serco-na.com/ 
*SpiesforHire.org is not affiliated in any way with Simon & Schuster"

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