Navjot Sidhu Out Of Jail, Has A "Rahul Gandhi Revolution" Message For BJP

 

Patiala:

Punjab Congress leader Navjot Singh Sidhu came out of jail on Saturday, 10 months after he was imprisoned in a road rage case that killed a man 34 years ago.

After getting out of the jail in Punjab's Patiala, Mr Sidhu jumped straight to work.

"Democracy is in chains," he said, in an apparent swipe at the BJP and Prime Minister Narendra Modi.

"Punjab is the shield of this country. When dictatorship came in this country, a revolution also came, led by Rahul Gandhi," Mr Sidhu said.

He alleged the centre wants to impose President's rule in the state where the Aam Aadmi Party (AAP), a bitter rival of the BJP, is in power. His comments come amid the search for radical Sikh preacher Amritpal Singh, whose private militia has been accused of trying to create trouble in Punjab and disturb law and order.

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"There is a conspiracy to impose President's rule in Punjab. They are trying to weaken Punjab. I stand like a wall with Rahul Gandhi, Priyanka Gandhi and every Congress worker," Mr Sidhu said.

"I want to ask my little brother (Chief Minister and AAP leader) Bhagwant Mann. Why did you fool the people of Punjab? You made tall promises, cracked jokes. But you are just Chief Minister on paper today," said Mr Sidhu, who was released from jail over eight hours later from the scheduled time onSaturday. He alleged the government wanted the media to leave before releasing him.

The Supreme Court in May last year ordered one-year "rigorous imprisonment" to Mr Sidhu, who had by then quit as Punjab Congress chief after his party's defeat in the state election.

The court judgment came on a request by the family of the man who died after a fight with Mr Sidhu and his friend in 1988. The family had asked for a review of a 2018 order from the Supreme Court acquitting him of murder.

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WATCH | India’s space plane lands in Karnataka as ISRO demonstrates Reusable Launch Vehicle

 

The Indian Space Research Organisation (ISRO) on Sunday successfully demonstrated the landing of its under development Reusable Launch Vehicle.

The spacecraft took off underslung by a Chinook helicopter from the Aeronautical Test Range (ATR), Chitradurga, Karnataka in the early hours of April 2.

By India Today Science Desk: The Indian Space Research Organisation (ISRO) on Sunday successfully demonstrated the landing of its under development Reusable Launch Vehicle. This brings India one step closer to the dream of its own space plane.

The spacecraft took off underslung by a Chinook helicopter from the Aeronautical Test Range (ATR), Chitradurga, Karnataka in the early hours of April 2. It was raised to an altitude of 4.6 kilometers before being dropped mid-air.

Watch ISRO’s RLV landing from air

RLV performed approach and landing maneuvers using the Integrated navigation, guidance & control system and completed an autonomous landing on the ATR air strip at 7:40 am.

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“The autonomous landing was carried out under the exact conditions of a Space Re-entry vehicle's landing —high speed, unmanned, precise landing from the same return path— as if the vehicle arrives from space,” ISRO said.

RLV is Isro's attempt at developing essential technologies for a fully reusable launch vehicle to enable low-cost access to space. The Indian space agency has established itself as a cost-effective launch service provider in the billion-dollar satellite launch market and the new system will further strengthen its position.

RLV's configuration is the same as that of an aircraft and combines the complexity of both launch vehicles and aircraft.

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Isro reusable launch vehicle’s landing experiment successful; RLV closer to orbital re-entry mission

 

BENGALURU: The Indian Space Research Organisation (Isro) early on Sunday successfully conducted the reusable launch vehicle (RLV) autonomous landing mission or RLV-LEX at the Aeronautical Test Range (ATR) in Challakere, Chitradurga, some 220km from Bengaluru. The space agency used a scaled down version of the RLV technology demonstrator (RLV—TD).
The space agency used a scaled down version of the RLV technology demonstrator (RLV—TD). The actual vehicle will be 1.6 times larger than the one used on Sunday.
Isro chairman S Somanath said: "We'll have a few more landing experiments with different conditions to prove the ruggedness of the algorithm and hardware that we've put in. This paves the way to development of the ORV and puts us a step closer to having India's own re-usable launch vehicle."
Isro said it was for the first time in the world that a winged body was carried to an altitude of 4.5km by a helicopter and released for carrying out an autonomous landing on a runway. RLV is essentially a space plane with a low lift to drag ratio requiring an approach at high glide angles that necessitates a landing at high velocities of 350kmph.

The RLV took off at 7.10am by IAF’s Chinook helicopter as an underslung load and flew to a height of 4.5km. Once the predetermined pillbox parameters were attained, based on the RLV’s mission management computer command, the RLV was released in mid-air, at a down range of 4.6km.
Release conditions included 10 parameters covering position, velocity, altitude and body rates, etc and release was autonomous RLV then performed approach and landing manoeuvres using the integrated navigation, guidance & control system and completed an autonomous landing on the airstrip at 7.40am.

“It went on exactly as planned and all parametres were met,” S Unnikrishnan Nair, director, Vikram Sarabhai Space Centre (VSSC), told TOI.
Stating that it then achieved the autonomous landing of a space vehicle, Isro added, the landing was carried out under the exact conditions of a space re-entry vehicle’s high-speed, unmanned, precise landing from the same return path as if the vehicle arrived from space.
“Landing parameters such as ground relative velocity, the sink rate of landing gears, and precise body rates, as might be experienced by an orbital re-entry space vehicle in its return path, were achieved. The RLV-LEX demanded several state-of-the-art technologies including accurate navigation hardware and software, Pseudolite system, Ka-band radar altimeter, NavlC (Indian GPS) receiver, indigenous landing gear, aerofoil honey-comb fins and brake parachute system,” it said.

LEX utilised several indigenous systems developed by Isro. “The digital elevation model of the landing site with a Ka-band radar altimeter provided accurate altitude information. Extensive wind tunnel tests and simulations enabled aerodynamic characterisation prior to the flight. Adaptation of contemporary technologies developed for RLV-LEX makes other operational launch vehicles of Isro more cost-effective,” Isro said.
The RLV-LEX demonstrated one of the critical technologies — the approach and autonomous landing on a runway and has put the RLV programme one step closer to an orbital re-entry experiment (ORE), for which the vehicle will be scaled up.
In ORE, a wing body called Orbital Re-entry vehicle (ORV) will be taken to an orbit by an ascent vehicle derived from the existing GSLV and PSLV stages and stay in orbit for a stipulated period, re-enter and land in a runway autonomously with a landing gear.
Before the RLV-LEX Isro had done the RLV-TD HEX-01 (hypersonic experiment) mission in which it validated autonomous navigation, guidance & control, reusable thermal protection system and re-entry mission management. Now that LEX is done, Isro will need to integrate both for the ORE.
Carried out on May 23, 2016, the RLV-TD HEX was a 770-second suborbital flight and designed to land on sea. The experimental mission saw the HS9 solid rocket booster carrying RLV-TD to a height of about 65km from where the vehicle began its descent followed by atmospheric re-entry at around Mach 5 (five times the speed of sound).
Isro, which has been working on this technology for more than a decade, decided to develop it primarily to address the cost and time issues. “The cost of access to space is the major deterrent in space exploration and space utilisation. A reusable launch vehicle is the unanimous solution to achieve low cost, reliable and on-demand space access,” Isro has said.
However, mastering this technology will provide multiple other benefits, including in development of different types of launch vehicles, space transportation and so on. While the ORE will be a major milestone, the RLV-TD is only a technology demonstrator and the development of an actual re-usable launch vehicle will take more time.

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