CARS AND WHEELS

CARS AND WHEELS

Saturday, December 5, 2015

The top-secret operation to eliminate the masked British extremist: From flying to amphibious drones

 

 

The top-secret operation to eliminate the masked British extremist

 

 

 

 

A crack team from the SAS tracked down IS executioner Jihadi John and called in the air strike that killed him in Syria, it can be revealed today.

Until now the top-secret operation to eliminate the masked British extremist – who beheaded UK hostages Alan Henning and David Haines – was thought to have been conducted entirely from the air without any Western troops.

But The Mail on Sunday has learned that the perilous plan depended on a team of eight men from the Special Forces regiment risking their lives to penetrate deep inside the IS stronghold of Raqqa.

 

Eight SAS soldiers sneaked to within five miles of ISIS's de facto capital of Raqqa in Syria and from there, they flew four 'nano helicopters' fitted with cameras that spied on Jihadi John

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Eight SAS soldiers sneaked to within five miles of ISIS's de facto capital of Raqqa in Syria and from there, they flew four 'nano helicopters' fitted with cameras that spied on Jihadi John

 

ISIS's chief executioner Jihadi John - real name Mohammed Emwazi - was evaporated near a clock tower where the terror group carried out several brutal executions ISIS's chief executioner Jihadi John - real name Mohammed Emwazi - was evaporated near a clock tower where the terror group carried out several brutal executions

 

ISIS's chief executioner Jihadi John - real name Mohammed Emwazi - was evaporated near a clock tower where the terror group carried out several brutal executions

And the secret weapon used to identify Jihadi John was a 1lb helicopter drone launched by the soldiers.

The daring mission began in darkness on November 11 when two US Chinook helicopters skimmed low across the Syrian desert to land at an isolated spot.

Avoiding all roads, the team of soldiers drove in desert buggies 35 miles south towards Raqqa. At about 3am, they 'dug in' five miles outside the city, where they remained undetected.

The following evening, while the rest of the team were on lookout, one man assembled four 3ft nano-helicopters with infrared and night-vision cameras in the nose. They were pre-programmed to fly to Jihadi John's hideout – a six-storey building in Raqqa.

The first drone set off towards its target, then entered 'hover and stare' mode, recording the movements of IS suspects at a building near the Sharksa mosque.

It beamed footage by satellite back to SAS HQ in Hereford and the US Central Command in Doha, Qatar.

David Cameron on reports that Jihadi John has been killed

 

'At 11.40 a car pulled up and he got inside. The Reaper locked on to its target and Jihadi John was history,' a source said of the strike near the infamous clock tower (pictured)

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'At 11.40 a car pulled up and he got inside. The Reaper locked on to its target and Jihadi John was history,' a source said of the strike near the infamous clock tower (pictured)

At 8.30pm, with the first drone low on power, a second one took over, and after another fruitless wait, it was replaced at 10pm.

But when the third suddenly shot back images of Jihadi John – real name Mohammed Emwazi – the tension in the control rooms was palpable.

A source said: 'US commanders re-tasked a Reaper drone armed with Hellfire missiles. At 11.40 a car pulled up and he got inside. The Reaper locked on to its target and Jihadi John was history. The guys were chuffed to get that maniac.'

£9million Tornados protected... by a 5ft fence

The Mail on Sunday can today reveal glaring security lapses at an RAF base where Tornado strike jets are protected by a flimsy 5ft-high picket fence.

Two Tornado GR4 fighter-bombers took off from RAF Marham in Norfolk last week to join the fight against Islamic State in Syria.

But the wooden fence at the end of the base's runway appears shockingly inadequate and could easily be knocked down by a would-be terrorist.

Although a hedge grows along most of the quarter-mile section of fence on the north-east corner of the base, reporter Andrew Young discovered an 8ft-wide gap, allowing him to go straight up to the fence.

Tornado strike jets (pictured) are protected by a flimsy 5ft-high picket fence at an RAF base

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Tornado strike jets (pictured) are protected by a flimsy 5ft-high picket fence at an RAF base

Two Tornado GR4 fighter-bombers (pictured) took off from RAF Marham in Norfolk last week to join the fight against Islamic State in Syria

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Two Tornado GR4 fighter-bombers (pictured) took off from RAF Marham in Norfolk last week to join the fight against Islamic State in Syria

The spot is just 300 yards from a path on which the bombers, which each cost £9.4 million, taxi down before they take off on the main runway.

The reporter, carrying a large rucksack which could potentially have hidden a bomb or weapons, stood by the fence for more than an hour on Wednesday as five of the jets took off on training missions.

At no time was he challenged by personnel at the base.

An RAF spokesman said last night: 'As a matter of policy, neither the RAF nor the Ministry of Defence discuss security measures. However, we can confirm security measures in place are robust and multi-layered, and are not solely dependent on perimeter fencing.'

 

   

A series of transformers-style drones that can can be used to carry cargo or even evacuate troops were unveiled by the Defense Department today.

The new concept images revealed on Tuesday show that the modular flying drones could adapt depending on the particular mission.

Like other drones, the vehicles can serve as unmanned flying machines but these new devices can also be used in a number of different instances as well.

ARES

 

Changing shapes: Like other drones, the vehicles can serve as unmanned flying machines but these new devices can also be used in a number of different forms

The ARES, Aerial Reconfigurable Embedded System, could also transport soldiers by dropping them off in dangerous warzones.

ARES

 

Extraction: Rather than remaining unmanned, the drones would be able to both drop off and pick up soldiers in remote warzones, saving them the threat of facing roadside bombs and IEDs

Or they can make cargo drops, delivering loads of supplies to areas that are too remote for cars and trucks to drive to.

Roadside bombs are one of the biggest threats to soldiers, with a heartbreaking total of 1,389 American soldiers having died to the blasts in Afghanistan alone since 2001.

Developers also think that they would be able to extract casualties from warzones.

The best and most mindboggling aspect of the machine is that the ARES will theoretically be able to switch from one function to another quite easily.

The machines are being built through a partnership between the US Defense and Davanced Research Projects Agency (DARPA) and  Lockheed Martin Skunk Works.

They have been working on forms of this same project since 2009, and- fittingly- it has been titled the Transformer (TX) program.

'Many missions require dedicated vertical take-off and landing (VTOL) assets, but most ground units don't have their own helicopters,' DARPA program manager Ashish Bagai said in a press release.

ARES

 

Turn and adapt: A pair of ducted fans will help provide the push off the ground to allow it to propel, and then those same ducts would convert and push the air backwards, effectively bringing the vehicle both up and out

ARES

Moving forward: No formal release date has been announced but DARPA has officially decided to pick up the project meaning that they will be created 

'ARES would make organic and versatile VTOL capability available to many more individual units.

'Our goal is to provide flexible, terrain-independent transportation that avoids ground-based threats, in turn supporting expedited, cost-effective operations and improving the likelihood of mission success.' Gizmodo reports that a pair of ducted fans will help provide the push off the ground to allow it to propel, and then those same ducts would convert and push the air backwards, effectively bringing the vehicle both up and out.

The machines would be able to hold up to 3,000 pounds which equates to more than 40 per cent of the body's weight.

Earlier vision: In 2011, the collaborators at Lockheed MArtin and DARPA announced a 'flying humvee' that was built in a similar way using a pair of air ducts

 

Earlier vision: In 2011, the collaborators at Lockheed MArtin and DARPA announced a 'flying humvee' that was built in a similar way using a pair of air ducts

No projected start date has been released but DARPA has decided to move forward with the project.

The ARES is only the latest iteration of the Transformers TX development line, with an earlier 'flying humvee' that was announced in 2011.

At the time, the flying humvees were expected to be produced and out into the field by 2015 but there have been no updates.

 

 

Photographs of amphibious drones suggest country is developing a robotic ground army

  • Ground-based robots were spotted at Russia's Rzhevka training ground
  • Among them was an amphibious model and a smaller six-wheeled robot
  • Their appearance follows Google's acquisition of Boston Dynamics and several other robotic companies

Emerging from a lake, a giant amphibious drone gingerly picks its way over Russia’s Rzhevka military training ground.

This huge drone is the latest in a menagerie of automated robots to be developed worldwide, adding to what some have described as the creation of ground-based robotic armies.

Its appearance comes as large organisations, such as Google and Amazon, invest in drone technology, with some experts claiming the it could lead to a full on robotics war by 2020. 

Scroll down for video...

Russia is reportedly developing weaponised ground drones, including some big amphibious models such as the ones shown here

Russia is reportedly developing weaponised ground drones, including some big amphibious models such as the ones shown here

Air-based drones have been under development in Russia for some time, with reports last year that the country had been developing a new 20-tonne attack unmanned aerial vehicle (UAV).

These latest images, however, provide a glimpse into Russia's future capabilities in ground-based drones.

According to Russian President Vladimir Putin, the country is aware of the potential of unmanned vehicles, but does not intend to use them the way other countries do. ‘Today they [drones] are used more and more widely in the world. We won't do it the way other countries do,’ said President Putin in November last year.

‘This is not a game, this is not a computer game, these are serious combat systems, both shock and reconnaissance versions, and it is absolutely clear that they have good prospects.

According to Russian President Vladimir Putin, the country is aware of the potential of unmanned vehicles, but does not intend to use them the way other countries do. Pictured here is a drone at the Rzhevka military training ground in Russia

According to Russian President Vladimir Putin, the country is aware of the potential of unmanned vehicles, but does not intend to use them the way other countries do. Pictured here is a drone at the Rzhevka military training ground in Russia

The country is reportedly developing a variety of ground-based drones including smaller six-wheeled models such as the one shown here

The country is reportedly developing a variety of ground-based drones including smaller six-wheeled models such as the one shown here

THE RISE OF THE ROBOT WARS

Last year, Google's chief Eric Schmidt warned drone technology proves a serious danger to global security.

Mr Schmidt said that the technology for armed unmanned planes will soon pass into the hands of terrorists posing huge security concerns across the globe.

He also said that ever expanding drone technology is making smaller and cheaper models, including nano-drones, which could be used by nosy neighbors spying on each other in a dispute.

'I'm not going to pass judgement on whether armies should exist, but I would prefer to not spread and democratise the ability to  fight war to every single human being,' he said.

In December, Google acquired robotic firm Boston Dynamics.

The firm, bought for an unspecified figure, is the eighth robotics company snapped up by Google in recent years.

The Russian government is also in talks to establish an organisation that will develop and produce unmanned aircraft systems, according to theVoice of Russia.

It’s not just Russia who increased invested in drone technology. Boston Dynamics, which made the Big Dog machine, was recently acquired by the internet giant Google.

The firm, bought for an unspecified figure, is the eighth robotics company snapped up by Google in recent years and is unlikely to be the last.

Three of Google’s recent acquisitions make robotic arms, used for lifting heavy weights and unloading trucks.

Another, Maku, makes androids that have eyelids, workable fingers and ears that move and flex, while another makes hi-tech cameras that were used to film recent Hollywood hit Gravity.

So what is Google, better known for running an online search engine, doing amassing a vast wealth of robotic experts and patents?

When asked whether the company is building an army of domestic servant robots, a press officer for Google in the UK laughed, before adding they didn’t know.

The Russian government is also in talks to establish an organisation that will develop and produce unmanned aircraft systems, as well as ground-based drones pictured here

The Russian government is also in talks to establish an organisation that will develop and produce unmanned aircraft systems, as well as ground-based drones pictured here

It's not just Russia who has increased invested in drone technology. Boston Dynamics, which made the Big Dog machine, was recently acquired by the internet giant Google. The infographic shows recent corporate investments in robotic technology

It's not just Russia who has increased invested in drone technology. Boston Dynamics, which made the Big Dog machine, was recently acquired by the internet giant Google. The infographic shows recent corporate investments in robotic technology

Google is not the only American company working on projects that might seem more akin to a Hollywood blockbuster.

Amazon recently announced plans to begin offering some deliveries by airborne drones.

Called ‘Octocopters’, the flying robots will take orders directly from the warehouse to homes or offices following GPS satellites and could be ready in five years.

‘I know this looks like science  fiction, but it’s not,’ said Amazon chief executive Jeff Bezos.

Company sources also recently said the group was working on even more ambitious and futuristic projects – but refused to elaborate on what they might be.

Meet THE robot that can run faster than Usain Bolt...

The appearance of this Russian drone comes as large organisation such as Google and Amazon invest in drone technology, with some experts claiming the technology could lead to a full on robotic war by 2020

The appearance of this Russian drone comes as large organisation such as Google and Amazon invest in drone technology, with some experts claiming the technology could lead to a full on robotic war by 2020

 

         

Thursday, December 3, 2015

Crossrail: Tunneling Beneath London

 

         

In hopes to design the most efficient transportation methods for large amounts of people, inventors throughout history have repeatedly produced bizarre ideas.

While many such proposals have led to great innovations, others were abandoned soon after development for being unsafe or impractical.

From ideas of tying a passenger car to a whale, to a bicycle railroad that became known for collisions with farm animals, the history of mass transit reveals that trial-and-error is not a smooth process.

 

At the turn of the 20th century, a group of French artists were asked to imagine the world 100 years later. This image predicts that whale-buses will come about, with bus strapped to a whale that pulls travelers through the deep sea. Whale handlers control the reins and rudder, steering passengers clear of a disgruntled dolphin.

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At the turn of the 20th century, a group of French artists were asked to imagine the world 100 years later. This image predicts that whale-buses will come about, with bus strapped to a whale that pulls travelers through the deep sea. Whale handlers control the reins and rudder, steering passengers clear of a disgruntled dolphin.

HOW THE WHALE BOAT WORKS

At the turn of the 20th century, a group of French artists were asked to imagine the world 100 years later.

One image predicts that whale-buses will come about in the future of transportation.

A bus strapped to a whale pulls travelers through the deep sea.

Whale handlers control the reins and rudder, steering passengers clear of a disgruntled dolphin.

At the turn of the 20th century, a group of French artists were asked to imagine the world 100 years later.

Jean-Marc Côté and other artists were not entirely off the mark in their assumptions; their paintings show a future world that is dominated by machines for cleaning, traveling, and entertainment.

Strangely, the artists also imagined the 2000's to be the golden era for humans riding marine animals.

One image predicts that whale-buses will come about in the future of transportation.

A bus strapped to a whale pulls travelers through the deep sea.

Whale handlers control the reins and rudder, steering passengers clear of a disgruntled dolphin.

Over inventions are stragenly close to today's vision of the future.

The Beach Pneumatic Transit system of the 1870s operated similarly to a potato cannon and channeled the techniques of pneumatic tube transportation, according to Inverse.

This design, created by Alfred Ely Beach, aimed to use a combination of vacuum tubes and pressurized air to propel luxury subway cars under New York City.

The tunnel was built and ran on a single track, a distance totalling about 300 feet.

Establishing a reliable braking system for the Beach Pneumatic Transit system, and generating enough power to sling the subway car was not feasible at the time, according to Inverse. After three years, the idea was abandoned.

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Establishing a reliable braking system for the Beach Pneumatic Transit system, and generating enough power to sling the subway car was not feasible at the time, according to Inverse. After three years, the idea was abandoned.

Establishing a reliable braking system, and generating enough power to sling the subway car was not feasible at the time, according to Inverse. After three years, the idea was abandoned.

A modern version, Elon Musk's proposed Hyperloop, would solve the braking problem with the use of electromagnetic technology, but has been met with skepticism, Wired says.

Shortly after, Arthur Hotchkiss devised a bicycle monorail system for transporting blue-collar workers across farmland.

The Smithville Bicycle Railroad Company sprung up in New Jersey after 1892, when Hotchkiss teamed up with an investor, Hezekiah Smith.

This design, created by Alfred Ely Beach, aimed to use a combination of vacuum tubes and pressurized air to propel luxury subway cars under New York City. The tunnel was built and ran on a single track, a distance totaling about 300 feet

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This design, created by Alfred Ely Beach, aimed to use a combination of vacuum tubes and pressurized air to propel luxury subway cars under New York City. The tunnel was built and ran on a single track, a distance totaling about 300 feet

The track spanned two miles and stood four feet high, according to CityLab, but bicycles of the time featured mismatched wheels and the rider had to repeatedly pump a ratchet mechanism to create propulsion.

This design even included mud flaps and tandem bikes to please its passengers, but riders would often run into problems during the commute.

Riding through farmland put passengers and farm animals at risk of collision, which happened often.

And, the railroad ran on a single track, meaning travelers approaching from opposite directions would have to get off and let one another pass, or collide head on.

In 1898, the company went bankrupt.

RUSSIA'S EKRANOPLAN: THE GROND EFFECT VEHICLE THAT 'HOVERS' ABOVE THE GROUND

A prototype of the Russian ekranoplan, a ground effect vehicle (GEV) is one that attains level flight near the surface of the Earth. While prototypes were built, it proved too difficult to control.

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A prototype of the Russian ekranoplan, a ground effect vehicle (GEV) is one that attains level flight near the surface of the Earth. While prototypes were built, it proved too difficult to control.

An ekranoplan is a ground effect vehicle, which uses aerodynamic interaction to hover just above the surface of Earth.

Russian prototypes were tested in the late 1900s.

A funnel system created between the wings and the ground presses upon air molecules, generating lift for the craft, says Wired.

This design allows the craft to generate more lift, and less drag.

Since the ekranoplan maintains a height of about 15 feet above a surface, it must be free of any obstacles, making the ocean its primary zone of operation.

Two massive prototypes of this design were created in Russia, but steering proved to be a major issue.

Sitting so low in the air, little movement could cause the wing of the plane would strike the surface.

The prototype has been dormant since the 1990s. 

 

Two massive prototypes of this design were created in Russia (left), but steering proved to be a major issue. Attempts have been made to create a modern version (rights), but these have also stalled.

The Brennan Gyro-Monorail sought to optimize the monorail design in the early 1900s.

The open rail-car was was 40 feet long and weighed 22 tons, and could reach a speed of 22 miles per hour.

The vehicle teetered atop two vertical 'gyroscopes,' which spun in opposite directions.

The Brennan Gyro-Monorail was developed by the Irish-born Australian inventor Louis Brennan. The vehicle was balanced by two vertical gyroscopes mounted side by side, and spinning in opposite directions at 3000 rpm. Each gyroscope was 3.5 feet in diameter and weighed 3/4 of a ton each

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The Brennan Gyro-Monorail was developed by the Irish-born Australian inventor Louis Brennan. The vehicle was balanced by two vertical gyroscopes mounted side by side, and spinning in opposite directions at 3000 rpm. Each gyroscope was 3.5 feet in diameter and weighed 3/4 of a ton each

This train led to later monorail carts of a similar design, which improved upon the original by adding a counter-weight system to balance the carrying load.

The monorail carts, however, never gained popularity. 

Moving sidewalks sought to turn the streets of Paris into a conveyor-belt for the people of the city in 1900.

The moving sidewalk in Paris was not the first of its kind, being preceded by the sidewalks at the 1893 World’s Fair in Chicago.

It hit a top speed of six miles per hour, and spanned a two and a quarter stretch of Paris, according to Gizmodo. The moving sidewalk stood about 30 feet above street level and became known as the 'wooden serpent.'

The moving sidewalk never stops, so passengers had to step aboard as it went. 

Suspended from a rail a dozen feet above the ground, the Railplane was powered by two propellers and stabilized by wheels that rested on another rail below. The design never caught on, and its inventor, George Bennie, was left bankrupt.

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Suspended from a rail a dozen feet above the ground, the Railplane was powered by two propellers and stabilized by wheels that rested on another rail below. The design never caught on, and its inventor, George Bennie, was left bankrupt.

 

The transit device merged the features of a monorail and an airplane. Passengers could travel in the masses at 120 mph in a smoke-free, bump-free ride. Suspended from a rail a dozen feet above the ground, the Railplane was powered by two propellers and stabilized by wheels that rested on another rail below

In another monorail design, British inventors had high hopes for the Railplane, which came to life on a test track in Glasgow in 1930.

The transit device merged the features of a monorail and an airplane.

Passengers could travel in the masses at 120 mph in a smoke-free, bump-free ride.

Suspended from a rail a dozen feet above the ground, the Railplane was powered by two propellers and stabilized by wheels that rested on another rail below.

The design proved to be no competition for traditional railroads despite raving reviews from the media and special guests, who were taken for rides.

Its inventor, George Bennie, was left bankrupt.

British inventors had high hopes for the Railplane, which came to life on a test track in Glasgow in 1930. The transit device merged the features of a monorail and an airplane. Passengers could travel in the masses at 120 mph in a smoke-free, bump-free ride

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British inventors had high hopes for the Railplane, which came to life on a test track in Glasgow in 1930. The transit device merged the features of a monorail and an airplane. Passengers could travel in the masses at 120 mph in a smoke-free, bump-free ride

 

 

Dawn of the underground age: Fascinating archive pictures reveal backbreaking work that finally gave London the Tube

 
  • Photographer Henry Flather documented construction work that 'transformed the face of London' in 1860s
  • Historic pictures reveal building work underway on stations and lines across the capital

The race for a seat may be foremost in the minds of the millions of commuters who swarm London's transport network each weekday morning.

But these fascinating archive photographs reveal the sheer scale of the work that went into building the stations and lines that continue to keep the capital moving more than a century on.

Some of the photographs date back as far as 1868, and offer the city's workforce 'something to think about next time you top up your Oyster Card', the
Museum of London said.

Making tracks: The roofing over the underground Metropolitan District Railway is visible in this photograph taken near South Kensington Station by Henry Flather

Making tracks: The roofing over the underground Metropolitan District Railway is visible in this photograph taken near South Kensington Station by Henry Flather

Gloucester Road: This photograph of construction underway on the station looking towards South Kensington shows workers erecting metal arched ribs

Gloucester Road: This photograph of construction underway on the station looking towards South Kensington shows workers erecting metal arched ribs

Many of the historic pictures are the work of Henry Flather, who took a series of 64 photographs in the late 1860s to document the construction of the railway from Paddington to Blackfriars, via Kensington, Westminster, and the new Victoria Embankment.

Railway workers, or 'navvies', used the 'cut-and-cover' method to build the first underground railways before the development of the tunneling shield by James Henry Greathead. The first tunneled, or 'tube', railway in London was the City & South London Line, which opened its doors in 1890. Sharon Ament, director of the Museum of London said: 'Millions of Londoners hop on the tube or take a train each day, but it’s easy to forget what magnificent feats of engineering these building projects were under Queen Victoria’s reign.

'The railway age transformed the face of London and the layout of the city that we know today, without the modern technology that projects like Crossrail benefit from. Something to think about next time your top up your oyster card.'

Keeping the city moving: The view of bustling commuters from Victoria station forecourt captured in 1920

Keeping the city moving: The view of bustling commuters from Victoria station forecourt captured in 1920

Passage of the years: Millions of passengers still use the capital city's transport network every day more than a century on

Passage of the years: Millions of passengers still use the capital city's transport network every day more than a century on

'Transforming the face of London': Building work underway on the District Line outside the city's Somerset House in 1869

'Transforming the face of London': Building work underway on the District Line outside the city's Somerset House in 1869

Now and then: The efforts are now concealed beneath the road - and trees that have matured over the decades - overlooked by Somerset House

Now and then: The efforts are now concealed beneath the road - and trees that have matured over the decades - overlooked by Somerset House

London's 'railway age': Londoners walk past a sign for 'electric trains every few minutes' at King's Cross and St Pancras Station in the 19th Century

London's 'railway age': Londoners walk past a sign for 'electric trains every few minutes' at King's Cross in the 19th Century

Time pushes on: London is a very different place decades on, with the trappings of modern city life - including the ubiquitous McDonald's - visible at the spot today

Time pushes on: London is a very different place decades on, with the trappings of modern city life - including the ubiquitous McDonald's - visible at the spot today

Beginnings: A photo of construction workers at the site of Blackfriars Station, looking north-east towards St Paul's Cathedral, taken by Henry Flather

Beginnings: A photo of construction workers at the site of Blackfriars Station, looking north-east towards St Paul's Cathedral, taken by Henry Flather

Roads: The expansive exterior of Blackfriars Station in London as it appears today

Roads: The expansive exterior of Blackfriars Station in London as it appears today

'At the Museum of London we tell the story of the world’s greatest city and its people. Our photography collection is particularly unique, and provides a glimpse into all aspects of London life during the second half of the 19th and 20th centuries,' she added.

From King's Cross to Waterloo, the photographs reveal how London looked at the dawn of the city's 'railway age'.

In one of Mr Flather's pictures, the skeleton of what is now High Street Kensington Station's arched roof as construction on the building was underway in the 19th Century, while another shows rings of brick arching being laid over two steel frames as builders worked to create the Metropolitan District Railway.

The London Underground celebrated its 150th anniversary this year.

The first section of the Metropolitan Line opened from Paddington to Farringdon in January 1863.

Days gone by: A team of railway staff pose in front of the completed Bayswater Station in a photograph taken around 1866

Days gone by: A team of railway staff pose in front of the completed Bayswater Station in a photograph taken around 1866

2013: Today there are cashpoints, telephone boxes and buskers outside Bayswater Tube Station in London

2013: Today there are cashpoints, telephone boxes and buskers outside Bayswater Tube Station in London

Finishing touches: The exterior of Gloucester Road station on the Metropolitan and District Railway line, which was opened on October 3 1868

Finishing touches: The exterior of Gloucester Road station on the Metropolitan and District Railway line, which was opened on October 3 1868

Standing the test of time: The signage still reads Metropolitan & District Railways at Gloucester Road Station

Standing the test of time: The signage still reads Metropolitan & District Railways at Gloucester Road Station

Break in proceedings: A group of railway construction workers, or 'navvies', pose for the camera beside a steam crane in Praed Street, Paddington

Break in proceedings: A group of railway construction workers, or 'navvies', pose for the camera beside a steam crane in Praed Street, Paddington

Fast food restaurants: Today Praed Street in London's Paddington is home to McDonald's, Burger King, and various other restaurants and shops

Fast food restaurants: Today Praed Street in London's Paddington is home to McDonald's, Burger King, and various other restaurants and shops

Glimpse of the past: A view of the forecourt of the Southern Railway terminus at London Bridge, originally built in 1836

Glimpse of the past: A view of the forecourt of the Southern Railway terminus at London Bridge, originally built in 1836

How it looks now: The forecourt at London Bridge station, which is flooded with commuters during rush hour from Monday to Friday

How it looks now: The forecourt at London Bridge station, which is flooded with commuters during rush hour from Monday to Friday

Backbone of the city: This photograph shows the roof of Kensington Station - later renamed High Street Kensington - under construction

Backbone of the city: This photograph shows the roof of Kensington Station - later renamed High Street Kensington - under construction

Impressive: The vast interior of the completed High Street Kensington Station - then known simply as Kensington Station - captured by Henry Flather around 1868

Impressive: The vast interior of the completed High Street Kensington Station - then known simply as Kensington Station - captured by Henry Flather around 1868

Recorded for posterity: Photographer Henry Flather's portable darkroom can be seen on the tracks inside the completed Bayswater Statio

Recorded for posterity: Photographer Henry Flather's portable darkroom can be seen on the tracks inside the completed Bayswater Station

Tunnels: Workers are seen roofing over a cutting to form twin tunnels, with five rings of brick arching being laid over two steel frames, during construction of the Metropolitan Line

Tunnels: Workers are seen roofing over a cutting to form twin tunnels, with five rings of brick arching being laid over two steel frames, during construction of the Metropolitan Line

Before the rush hour: A construction site to the west of Waterloo Bridge and the foot of Savoy Street, as building work was underway on the Victoria Embankment and the Metropolitan District Line

Before the rush hour: A construction site to the west of Waterloo Bridge and the foot of Savoy Street, as building work was underway on the Victoria Embankment and the Metropolitan District Line

Our work is done: The completed interior at  Notting Hill Gate Station captured by Henry Flather

Our work is done: The completed interior at Notting Hill Gate Station captured by Henry Flather

Modern methods: More recent construction work underway on the Crossrail link at New Oxford Street in the heart of the city

Modern methods: More recent construction work underway on the Crossrail link at New Oxford Street in the heart of the city

 

 

 

 

 

 

 

 

Crossrail: Tunneling Beneath London

 

When one digs beneath London, England, one digs through history. Crossrail, the largest construction project in Europe, is tunneling under the British capital to provide a new underground rail link across the city, and has encountered not only a maze of existing modern infrastructure, but historic finds including mammoth bone fragments, Roman roads (with ancient horseshoes embedded in the ruts), Black Plague burial grounds, and 16th century jewelry. The $25 billion (15 billion pound) project is due to open in 2018, connecting London's Heathrow airport to the county of Essex -- five tunnel boring machines are creating a kilometer of new tunnel under London every two weeks. The millions of tons of soil from the Crossrail construction are being shipped to Wallasea Island in the Thames Estuary, allowing the island to be transformed from levee-protected farmland into a thriving wetland. [28 photos]

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A worker emerges after a tunneling machine made the breakthrough into the station structure at Canary Wharf, in east London, on June 11, 2013. Crossrail is the largest infrastructure project in Europe, built to provide a new link across London. (Reuters/Andrew Winning)

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Tottenham Court Road Crossrail work, September 15, 2011. Original here. (CC BY EG Focus) #

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A technician sprays concrete to support caverns built to house the converging railway tunnels at Crossrail's Stepney site beneath east London, on December 14, 2012. (Reuters/Andrew Winning) #

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An access point to the Crossrail site at Farringdon Station, in London, on January 30, 2013. (AP Photo/Chris Jackson) #

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Crossrail workers operate a 150 meter long tunnel boring machine, creating an 8.3 km tunnel from the Limmo Peninsula to Farringdon, on April 24, 2013 in London. (Oli Scarff/Getty Images) #

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A worker walks inside a section of a tunnel boring machine in one of the tunnels at Crossrail's Limmo Peninsula site beneath east London, on December 14, 2012. (Reuters/Andrew Winning) #

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Workers renovate the Crossrail Connaught tunnel between the Royal Albert and Royal Victoria docks in east London, on May 29, 2013. (Reuters/Luke MacGregor) #

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Archaeologists working on the Crossrail project uncover a historical burial ground at Charterhouse Square, Farringdon in central London. Scientists were called in to investigate bones found during the digging of a new railway in central London, after 13 skeletons were found. The skeletons were be tested to see if they died from the Black Death plague which killed between 30 and 60 percent of the European population in the 14th century, and scientist hope to map the DNA signature of the plague bacteria.(AP Photo/Crossrail Project) #

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An archaeologist with Crossrail works in a recently-uncovered historical burial ground in central London.(AP Photo/Crossrail Project) #

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An archaeologist digs out a skull from the site of the graveyard of the Bethlehem, or Bedlam, hospital next to Liverpool Street Station in the City of London, on August 7, 2013. The dig is on the site of the future ticket hall for the Crossrail station at Liverpool Street. Archaeologists have a window of time to dig through parts of London's first municipal graveyard from the 16 and 17th century; and through to the Roman ruins beneath; before the site is handed back to contractors building the ticket hall for the Crossrail station. (Reuters/Andrew Winning) #

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Crossrail workers in a 40 meter deep shaft at Limmo, from where they are constructing an 8.3 km tunnel from the Limmo Peninsula to Farringdon, on April 24, 2013. (Oli Scarff/Getty Images) #

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Workers line up rails for the tunneling machine at Crossrail's Stepney site in east London, on September 25, 2013.(Reuters/Andrew Winning) #

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A worker inspects the Tunnel Boring Machine at the Pudding Mill Lane Crossrail construction site, on May 16, 2013.(AP Photo/Lefteris Pitarakis) #

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A service train carries Crossrail workers to a 150 meter long tunnel boring machine, on April 24, 2013. (Oli Scarff/Getty Images) #

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Crossrail workers strengthen, deepen and widen the Connaught tunnel to accommodate new trains on April 24, 2013 beneath London. This 550 meter Connaught tunnel was built in 1878 and has not been in passenger use since December 2006.(Oli Scarff/Getty Images) #

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Under-construction escalators in the Ticket Hall level of the Canary Wharf Crossrail station in the North Dock of the Isle of Dogs in London, on November 26, 2013. The construction of the station, which began in May 2009 and is costing 500 million GBP, features four stories of retail space above the ticket hall and platform levels. The station has been created by constructing a concrete box in the North Dock 250 meters long and 30 meters wide. (Oli Scarff/Getty Images) #

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Concrete shatters as a tunneling machine makes the breakthrough into the station structure at Canary Wharf, in east London, on June 11, 2013. (Reuters/Andrew Winning) #

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Prime Minister David Cameron and Mayor of London Boris Johnson visit a Crossrail construction site underneath Tottenham Court Road, on January 16, 2014. (Ben Stansall - WPA Pool/Getty Images) #

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Workers stand in an access excavation at the entrance of the tunnels at Crossrail's Limmo Peninsula site in east London, on December 14, 2012. (Reuters/Andrew Winning) #

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Crossrail workers in a 40 meter deep shaft at Limmo, on April 24, 2013. (Oli Scarff/Getty Images) #

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A worker operates a mechanical digger 40 meters underground in the access excavation at the mouth of the tunnel at Crossrail's Limmo Peninsula site, on December 14, 2012. (Reuters/Andrew Winning) #

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An archaeologist displays a 16th century Venetian gold coin, perforated to be worn as jewelery, which was dug out from the Crossrail site next to Liverpool Street Station in the City of London, on August 7, 2013. (Reuters/Andrew Winning) #

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A worker stands on the tunnel boring machine creating the Crossrail tunnel being built from Paddington towards Farringdon under central London, on March 13, 2013. (Reuters/Andrew Winning) #

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Excavators feed tons of earth generated by the construction of Crossrail into screeners before it is put on a bulk freighter in east London, on December 17, 2013. (Reuters/Andrew Winning) #

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A ship delivers soil to Wallasea Island on September 17, 2012 near Rochford, England. The Crossrail railway tunnel project in London has started to deliver 4.5 million tons of soil from it's construction to Wallasea Island in the Thames Estuary. This will allow Wallasea Island to be transformed from levee-protected farmland into a thriving wetland twice the size of the City of London.(Peter Macdiarmid/Getty Images) #

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A member of the crew of a bulk freighter prepares his ship to receive tons of earth generated by the construction of Crossrail, at a jetty on the Thames in east London, on December 17, 2013. (Reuters/Andrew Winning) #

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A digger makes adjustments to a levee at the eastern end of Wallasea Island on September 17, 2012 near Rochford, England. The Crossrail railway tunnel project has started to deliver 4.5 million tons of soil from it's construction to Wallasea Island in the Thames Estuary. (Peter Macdiarmid/Getty Images) #

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A Crossrail employee looks at Wallasea Island on September 17, 2012 near Rochford, England.(Peter Macdiarmid/Getty Images