Table of Contents

Air Travel

59. Airline Seats

The universal minimum standard for airline seat dimensions should be a seat width (clear between armrests) of 46 centimeters (18.1 inches) and a “half in armrest either side” total width of 54 centimeters (21.3 inches).


60. Video Recording Airport Activities

Commercial airports ought to have video recorders located throughout the airport recording virtually all airplanes during take offs, landings (including take off and landing glide slopes), taxiing, at terminals, and during loading and unloading operations. If accidents or sabotage were to occur, there would then be a far higher likelihood of obtaining much more useful information much quicker because of these recordings.


61. Traffic Light System for Aircraft on Taxiways and Runways at Busy Airports

All airports with sufficiently high traffic should be required to install a system of traffic lights at runway and taxiway intersections as well as a ground-based or GPS-based aircraft tracking system (as is now beginning to occur) in order to keep track and maintain better control of all airplanes on the ground and in the air during all types of weather.


62. Recording, Transmitting, and Emergency Equipment

All aircraft over 2,000 pounds or aircraft of any weight designed to carry three or more people should be required to be fitted with flight data and voice recorders. In addition, planes designed to carry more than 10 passengers should be required to have a minimum of two cameras, one mounted in the rear of the cockpit facing forward to include the pilot and copilot as well as a good portion of the instrument panel and a view out the front cockpit windows, and another camera (or as many as necessary) in the main passenger cabin monitoring both passenger behavior and environmental conditions there. Additional cameras may be placed around the outsides of aircraft to monitor their external physical health. Furthermore, aircraft designed to carry 10 or more passengers should be required to gather various significant aircraft operational data that would potentially be useful in reconstructing virtually any possible incident involving the aircraft. Additionally, at least one portable camera should be on board each aircraft so that the crew can record or document other things that may not be able to be recorded by the fixed cameras aboard elsewhere.

All of this information from the cameras, including portable cameras, and all the aircraft data being gathered should be permanently recorded, or at least recorded through 24-hour loop recordings. Ideally, and if the technology is reliable enough, all of this data should be constantly transmitted live from each aircraft to ground recording stations. However, conventional ‘black box’ recorders may still be required to remain and operate concurrently aboard aircraft as backup recorders in case something goes wrong with the transmission or recording of the live data feeds. It should be impossible to stop the transmission of this data to ground stations while the aircraft is in flight. Only technicians on the ground accessing the aircraft from an external hatch should be allowed to stop such transmissions.

Pilots, flight attendants, and any members of the official crew would be able to press a ‘panic button’ which would automatically begin sending out a distress signal. On board computers could also trigger a ‘panic button’ if they detect a critical anomaly that may lead to injury or loss of life. Such distress signals should include within them some kind of message describing the nature of the emergency. Once turned on, these distress signals should only be able to be turned off from the outside of the aircraft (i.e., once the aircraft has landed), thus preventing airborne terrorists from silencing them). These devices should also be able to transmit its current geographical coordinates.

Aircraft should also have emergency broadcasting equipment. All multi-person aircraft or aircraft weighing more than 2,000 pounds should be required to carry a crash-resistant emergency distress signal broadcasting device that can be used as an emergency electronic locator beacon, as well.

Aircraft designed to carry 10 or more passengers should also be required to carry small, mobile versions of these devices. Such portable beacons could also serve double functions as two-way radio communication devices between rescue crews and survivors. This way a group of survivors who leave the crash site to go looking for help can be found. To increase their chances of survival after a crash, these devices should be located at the rear of the plane. Emergency locator beacons would need to be able to be turned on by search crews if they, for some reason, have not been turned on by the plane’s crew. Such devices should have the ability to last a minimum of three days without being recharged, and they should be rechargeable through the use of solar and/or hand-operated generators.

Live feeds of information directly from aircraft to ground stations would enable a far greater improvement in the ability of ground personnel to troubleshoot various potential problems in conjunction with the airplane crew. Live feeds would also significantly improve the responsive abilities of emergency crews to prepare to deal with the aircraft and passengers after landing. An additional potential benefit of increasing the amount and timeliness of relevant information to decision makers and emergency crews on the ground would be the reduction in the number of injuries resulting from emergency disembarkment procedures. If the nature of the emergency is better understood, the more extreme precautions could likely be deemed unnecessary well before the moments they are required to be implemented.

Aircraft flight recorders ought to have a built-in warning system that would alert maintenance crews if the recorders are not operating properly and in need of maintenance. It should also be impossible to turn off any ‘black boxes’ or transponders on an aircraft from the cockpit. It should only be possible, if anything, to turn them on from the cockpit.


63. Cockpit to Cabin Windows

There should be a small, one-way window or some other type of secure viewing method so that only people in the cockpit would be able to see who is in the cabin side of the wall separating the cockpit and cabin. In the larger jets, there should also be video and even audio feeds to the cockpit from the main cabin.


64. Airline Crew Training

Airline crews ought to be trained on how to use stun guns and similar devices as well as various other methods on how to successfully subdue a small group of hijackers and guard against terrorism.

Two people should be required to be in the cockpit at all times. (Idea from William Saletan) This would help reduce the likelihood of deranged individuals taking over control of the plane for suicidal purposes.