There are always scratch and sniff cards they can give out in the DVD cases!
and apparently,
High-speed video editing – with MAGIX Movie Edit Pro This software which is handy for video editing can produce 3d type movies, if you have a 120hz refresh rate monitor. Using two identical cameras, mounted on a grip plate using the tripod fittings, the software can use the two feeds, fit them over each other in the same video track and produce interesting stuff indeed
Just found this...
Computer scientists add smell to games
Using scent delivery systems like Biopac could help train military as players can experience odours of the battlefield
Matthew Bingham
div#related-article-links p a, div#related-article-links p a:visited { color: rgb(0, 102, 204); } Professor Bob Stone loves the smell of napalm in the morning. He’s less keen on raw sewage, burning vegetation and diesel exhaust, but at the click of a mouse any and all can be wafting through his office at Birmingham University. It’s just one of the techniques the computer scientist is using to make video games more realistic. Stone is helping to develop technology likely to end up in home games consoles to create realistic “smell effects”. Players will experience the odours of, say, the racetrack or the battlefield. His research also has a more immediate goal: to train future recruits to the British military.
Stone, a member of the university’s school of engineering, is being part-funded by the Ministry of Defence to build, as he puts it, “serious” games. He and his team have developed software that can teach submariners to operate rescue craft; soldiers to identify improvised explosive devices; and sailors to fire a deck-mounted minigun.
All have been designed using software development kits made available by games designers. These kits, which are spin-offs from top-selling games such as Far Cry and Half Life, handle the tricky movement and physics of a virtual world, leaving Stone free to superimpose new game-playing technology that stimulates other senses, especially aural and olfactory.
The SDS — scent delivery system — is one of the add-ons that Stone has adopted to make the training games more realistic. It consists of eight sealed chambers, each of which holds a pot of wax impregnated with a pungent odour. Available at $25 (£17.26) each from Biopac, an American educational supplies company, they range from the likes of gingerbread and April showers to a mix of odours designed to evoke combat. On command from the computer, compressed air is blown over some or several of the chambers to stir up an instant impression of Kandahar.
“Smell is the most underrated sense, but next to vision is the most information-rich one we have,” says Stone. He is in the process of writing code into his games that will cause the machine to release smells at appropriate times. For example, on the battlefield, the system will release the odour of cordite, a pungent residue of gunfire. In close-quarter combat, the system can render the smell of body odour. The smells are so lifelike they can be almost overpowering. One scenario is an Iraqi neighbourhood where sewage is running down the street. Stone’s smell generator whirs into action, sending players scrambling to open the windows.
The SDS is being used in conjunction with sound effects to recreate in the laboratory the kind of environments British troops are likely to encounter. One use would be to identify triggers for post-traumatic stress disorder. Volunteers who have returned from the front line would “play” as infantrymen on patrol in a Middle Eastern street. As helicopters fly overhead, a car explodes and civilians panic. The soundtrack is culled from British Army radio chatter and Iraqi street sounds. The result is disturbingly believable, with smell taking the realism to another level.
Another add-on being used by Stone is the Novint Falcon, a force-feedback controller designed to give gamers the impression they’re handling real-life objects. Use it to pick up something heavy and the motors in the unit slow your movements. Poke a solid object and the controller stops your hand. Stone is using the controller as part of a medical training programme where
users take the role of a surgeon struggling to stabilise a casualty. With the clock ticking, trainees have to specify tests, take readings, explore wounds and place a tube in the patient to help breathing; at the end of the four-minute simulation, trainees’ performances are analysed. Stone spent time in the morgue of an African hospital to ensure the injuries were depicted accurately. He hopes that hardware such as the Falcon will one day be sensitive enough for trainees to practise removing shrapnel from a virtual eyeball.
“Games like these are designed for troops who have never been out to theatre,” says Stone. “You could put this on a DVD and run it on a laptop, so surgeons could train on it as they fly out.”
One area where computer training is particularly relevant is in bomb disposal. Improvised explosive devices have claimed the lives of many British soldiers in Iraq and Afghanistan. Army Search and Disposal is a game designed to teach players to look for the signs of explosives and booby traps.
Robert Guest, a research fellow who is helping Stone develop the systems, spent hours creating realistic-looking grass at the side of a central European-looking road, in order to hide his trip wires and control cables. A second version, set in a rainy “everytown”, requires players to question the locals and operate a remote-controlled bomb disposal vehicle.
The use of computer games in military training is becoming increasingly important, not least because the systems used to operate battlefield technology increasingly resemble games console controllers. A British missile system and an American armoured vehicle have recently been fitted with command systems that look and act like Xbox controllers. Their designers reckon that most young recruits who will need to use them will already possess the relevant, fast-fingered skills.
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Computer-controlled (USB), eight-cartridge scent* machine uses compressed air** to project different scents on cue for a predetermined time followed by a burst of unscented air to clear for the next scent. System includes software to control the delivery and duration of scents from the SDS100 unit. Scents can be triggered from a virtual reality environment. Dispersed scent covers approximately 3-6 meters in front of unit, depending on how many fans are used.
*Scent cartridges not included; order as
SCENT.
**Air compressor not included.
Cord connections
Single scent cartridge for
SDS100 Scent Delivery System.
Over 120 scent options available—
Scent List 
Specialty scents include:
___ Barn Yard
___ Beer
___ Body Odor
___ Burning Electrical
___ Burning Leaves
___ Burning Rubber
___ Burnt Wire
___ Campfire
___ Cat Urine
___ Diesel Exhaust
___ Dirt Floor
___ Garbage
___ Grilling Meat
___ Gunpowder
___ Hospital Smell
___ Human Feces
___ Lit Cigarettes
___ Low Tide
___ Manure
___ Marijuana Smoke
___ Mildew
___ Natural Gas
___ Race Car Exhaust
___ Swamp
___ Raw Sewage
___ Red Wine
___ Rum
___ Smelly Dog
___ Sulphur
___ Urine
___ Weapon Fire
___ Whiskey
Applications
Virtual Reality
