Students Steer a Blimp to Test Near Space Military Technology

The similar but much larger unmanned airship is being developed by engineers at Johns Hopkins University's Applied Physics Laboratory in Laurel, Md., to provide visual and communications support from an altitude of about 100,000 feet above sea level. To help test and refine the guidance, navigation and control system for such a craft, APL engineers asked students in the university's Engineering Design Project class to devise a smaller version of the airship.

During the two-semester course, offered by the Department of Mechanical Engineering, the student team built a model airship that can fly autonomously, following computer commands to move itself to a predetermined location. The craft can also be steered manually through a wireless remote controller. The onboard equipment includes a video camera that can transmit real-time images from about 50 feet above the ground.

"We're trying to see how these systems would work, using commercial off-the-shelf equipment," said Vincent F. Neradka, an APL engineer who worked with the undergraduates. "The model aircraft works very well. The students met almost all of our objectives. We're delighted with what they did."

One of the goals was to keep costs down because the full-size system is envisioned as a relatively inexpensive disposable airship that would hover high over a military location for two to four weeks, sending pictures of activity on the ground and relaying communications. Then the airship would either disintegrate or be destroyed. As envisioned by APL, the airship, dubbed High Altitude Reconnaissance Vehicle, or HARVe, would be stuffed inside a missile or reusable rocket, which would carry it to a near space altitude. After emerging from its carrier, a mammoth balloon would self-inflate and carry a gondola equipped with sensors and propellers. Unlike most conventional satellites, HARVe could be directed to stay in place above a single ground location for weeks at a time.

The smaller model, built by the students for about $12,500, will help APL determine whether existing low-cost technology might work in a full-size version. The student model utilizes a commercial blimp capable of carrying a 10- pound aluminum gondola. The gondola is equipped with two propellers facing forward and two reversible propellers facing up and down, a video camera and the electronic navigation, control and guidance system. Just before the end of the school year, the students conducted test flights with the model, then turned it over to APL engineers.

The student inventors were Ben Jackson, 22, a double-degree major in mechanical engineering and trumpet performance from Wilmette, Ill.; Nicholas Keim, 21, a mechanical engineering major from Ellicott City, Md.; and Michael K. Chin, 22, a mechanical engineering major from Brookline, Mass.

The undergraduates had to overcome several hurdles while completing the project. "Being mechanical engineers, a lot of the circuitry was beyond our training," Keim said. "We had to get some outside help."

In addition, the motors that the students' computers had predicted would be powerful enough to run the vertical propellers turned out to be not powerful enough — and had to be replaced. "One of the things we learned was that theory doesn't always work out," Keim said. "Sometimes, things break and you have to deal with it."

Added Jackson, "There were frustrating times when things didn't work, and we didn't know why. But overall, it was a great experience to be able to complete the design of something new and then see the whole invention come to fruition. That was very satisfying."

The model airship was one of nine Johns Hopkins projects completed this year by undergraduates in the engineering design course. The class is taught by Andrew F. Conn, a Johns Hopkins graduate with more than 30 years of experience in public and private research and development. Each team of three or four students, usually working within budgets of up to $10,000, had to design a device, purchase or fabricate the parts, and assemble the final product. Corporations, government agencies and nonprofit groups provided the assignments and funding. The course is traditionally a well-received, hands-on engineering experience for Johns Hopkins undergraduates.

Source: Johns Hopkins University (Photo by Will Kirk)

Scientists shed light on the last 'flying aircraft carrier' crash
The 1935 crash of the Navy zeppelin USS Macon off the California coast marked an inglorious end to a unique experiment in aviation. Four times longer than a modern Goodyear blimp, the Macon could carry 100 crewmembers, including pilots specially trained to fly small reconnaissance airplanes stowed in the zeppelin's massive hull. The giant airship was one of only two ''flying aircraft carriers'' ever built, and both went down in the ocean without ever seeing combat.
Dartmouth researcher proposes the use of high-altitude airships for astronomy
Dartmouth astronomy professor Robert Fesen appreciates NASA's Hubble Telescope, which he says has proven to be a terrific astronomical observatory since it was launched in 1990. But, he adds, there may be a vastly cheaper way to obtain nearly as sharp images of stars and galaxies that doesn't require space shuttle flights or teams of astronauts to launch or repair it.
'Paint-On’ Antenna Test Flight Paves Way for Next-Generation High-Altitude Airships
"Paint-on" antennas, designed to establish new high-altitude communications and surveillance platforms, successfully transmitted voice and data links as well as teleconferencing capabilities during test flights in the Nevada desert June 21 on board a SA-60 spherical airship.
By airship to the North Pole
In 2008, scientists will, for the very first time, create a continual profile of ice thickness in the Artic, extending from the Canadian coast across the North Pole to Siberia. At the core of the project lies the crossing of the North Pole by zeppelin. The airship will be equipped with an electromagnetic sensor developed at the Alfred Wegener Institute for Polar and Marine Research, one of the 15 research centres within the Helmholtz Association. The sensational project of French physician Jean-Louis Etienne is financed by the French oil company Total and will be presented in Berlin on April 5.
Is there a pilot in the insect?
When they fly, insects use their vision for piloting, just like human pilots. The electric signals from their facetted eyes travel through specialized neurons to stimulate the wing muscles, which let the insects correct their flight and avoid crashes. Could these same neurons be used in a sort of "automatic pilot"?
Blimp gets big screen
The Lightship Group, a subsidiary of American Blimp Corporation, unveiled its new A-170 Video Lightsign airship in hopes of rejuvenating the blimp industry.
Lofty wireless platforms for high speed broadband
Floating high in the sky, tethered balloons may soon be a welcome sight for broadband users outside cities. Trials in England recently demonstrated these aerial platforms can wirelessly deliver data up to 200 times faster than an ordinary wired broadband connection.

Students Steer a Blimp to Test Near Space Military Technology

Related stories:

News discussion: