Spent way too many hours trying to perfect timing and movement on this assignment. But turned out pretty well in my opinion :) I also slightly altered the hue/texture of the clips to convey a similar feeling of an animation sequence.
First of all my main goal was to mimic what was portrayed in each video as closely as I can. But in order to do that I had to figure out the distance required for each shot, pay attention to the particular details that may be easily overlooked, and also the timing. For the most part I tried to prioritize the style of the animation but also needed to understand the limitations I had especially in Clip A since I was by myself which would be quite difficult unless I have the capability of defying the laws of gravity (principles behind center of gravity.) In Clip B I had the aid of my housemate who I appreciate the help. And in Clip C my housemate ended up passing out so I had to do some improvising in post (editing) to compensate for the loss of camera movement.
Clip A:
Clip B:
Clip C:
Wednesday, October 27, 2010
Wednesday, October 20, 2010
The Laws of Physics in an Animation Universe
Super Smash Brothers Brawl is the 3rd installment in the series for the Nintendo Wii entertainment system. It is a brilliant and unrivaled fighting game that goes against all odds. It uses game characters from the Nintendo franchise and puts them in an arena for an all out battle to the finish. Relying on skills of the players and the extent of how far each player will go to put up against their foes lays out the underlying principles of the game. The battles revolve around 2-4 players skirmishing while executing a number of different combination of moves as they attempt to smash, thump, bop, tap, slam, blow, stomp, whack, crack, or even bash others off the playing field. If a player gets booted off stage he/she can make the indispensable effort to jump back on because what lies below will cost you more than a bash to the stomach. Each character effectively have the ability to also jump, run, climb, grab, punch and kick like a normal person do with exception to the fact that while in the game you may also employ a countless unique set of attacks that may or may not combine with the ability to soar through the sky, distort one’s shape and size, attain special powers from unimaginable substances and items, and/or release out a fireball that essentially covers half the screen as it overpowers every character that comes in contact with it, while still holding a perfectly inert stance. While the Super Smash Brothers Brawl game is amusing and compelling with its exaggerated depiction of a fighting arena, we can see that the universe that exists within smash brothers is far from that of reality. Comprised of a physics engine that is significantly bent to follow this twisted path of mayhem, the creators of the game wanted to observe the extent of what they can do when it comes down to the squash and stretch animation; as well as the law of inertia that is appropriately represented at times with the swaying of the facial hair on a character’s face but distorted when it comes to the unrealistic ability of a character to jump while in midair; as well as the implementation of gravity and action and reaction principle. The game takes place on a planet that initially appears relatively similar to our own with exceptions to the unfamiliar scenic backgrounds behind each battle arena. Round after round, one may see that the game violates the properties of physics constantly within our world and its own to intensify the action for the players and generate a visually gratifying experience.
As we dive into the game one can notice something very abnormal about the world that is exhibited. It is quite evident that the stage itself is basically a floating platform which clearly defies the laws of gravity.
According to Newton’s theory of gravitation, in everyday life, gravitation is well-known as the agent that gives weight to objects with mass and causes them to fall to the ground when dropped. The sheer fact that there is no sort of support to maintain the platform’s static position in the air, the creator’s intentions were merely for amusement or artistic reasoning. It would be quite understandable if this idea was consistent in this world, however it is not. Conversely, the characters are quite familiar with the notion of gravity and plunges toward the surface of the platform when there is no object or matter that will keep them suspended in the air.
The innovation and application of Newton's law of gravity accounts for the in depth information we have about planets and its gravitational properties. This planet in which this game takes place on explicably encompasses the concept of gravity through its characters and any tangible item that exists in the world—minus a few exceptions including the stage platform as well as the Final Smash Ball which well…is obviously not doing physics justice as it floats in the air and moves back and forth across the screen until someone breaks it and stops it in its tracks.
It may be justified that perhaps the floating platform’s inimitable reason for existence is to permit the player to hop onto them to get to their opponent. After all, you can't fly. Oh wait…never mind, apparently there are exceptions to certain characters like Kirby and Jigglypuff who have the unrealistic ability to float in the air for moments at a time by puffing up into a balloon like figure.
Floating platforms aren't just unreceptive to gravity, but to all laws of physics. Despite what happens to them-- e.g. explosion from a bomb--they'll either just stay stationary or motionless or keep moving in their preordained pattern, overlooking the basic concept of inertia, which is defined as the resistance of any physical object to a change in its state of motion or rest. Some stages try to rationalize this, often by putting some sort of propulsion or driving force below the floating platforms, or by changing the platforms into clouds—although that would ironically raise another argument and one may question how the clouds would be solid enough to sustain the weight of the character.
Another example of when the law of inertia is broken includes the fundamental combat attack system that comprises of the character to jump, then crouching in the air, and then briskly hammering or diving directly into the ground (called ground pound). It is quite a feat to be able to control your character’s direction of motion with such energy and force when you have predefined forces (the jump) already acting on your character in the opposite direction while you’re in the air.
Double jump is also another example of an impossible act of movement that defies both the law of gravity and inertia. It is the ability to jump while you're still above ground from your initial jump, hence gaining extra altitude. Precisely how this is supposed to work is uncertain but a concept which been widely accepted for a while now because it helps progress the story along by aiding the character while making the game play much easier.
Another law of physics that this game unfailingly break that I believe is worth mentioning would be the concept of Squash and Stretch. Apparently certain characters, more specifically Kirby have the mysterious ability to swallow and spit any other character in the game regardless of their size. The purpose is so that he can obtain a skill or ability of the character he engulfed. Kirby’s innate ability to do this is quite interesting since it practically implies that his body is so elastic that it can stretch even 3 or 4 times his normal size.
Jigglypuff have the strange ability to enlarge herself to almost half screen size when she acquires the Smash ball. In real life, if she were to expand in size like this, she would more than likely explode. This notion of exponential growth in size over a course of a few seconds is unimaginable unless her body is ridiculously elastic and even then, it is a very unlikely predicament.
Finally last but not least I would like to touch up on is the notion of the action-reaction principle which states that for every action that is applied there will always be an opposite and equal reaction. One idea which is quite often done is the baffling design where characters can run through each other upon contact without damage or consequence. In actuality the characters would more than likely bump/rebound one another and even bounce back upon impact. Despite this impossibility that occurs in the game, the action flows together naturally and does not noticeably bring the spectators out of immersion since it allows the player to engage in battle with much ease than having to think about the extra mechanics that could be involved that may merely interfere with the style of gameplay.
Another example of a misusage of the action-reaction principle is when a character grabs a final smash ball and gain extraordinary powers--e.g Mario would attain an ability to shoot a large fireball or Samus will shoot out a gigantic laser beam—while refraining from experiencing recoil after execution of attack. In reality the characters themselves who discharged such powerful attacks would receive a reaction that is as significant; more than likely sending them flying backwards off the screen in the opposite direction. The only way they may resist this rebound is if the characters themselves have a much larger mass than compared to the force that is behind the wave of blast released.
The designers of the game twisted the laws to give the game more texture and quality. The designers altered the gravity and motion so there is more to do when it comes to the movement of the character and how it interacts with it environment. The odd squash and stretch element is incorporated to add a comedic and amusing aspect to the gameplay; and lastly the action and reaction principles were defied to make the game exaggerated so there is more control, intensity, and appeal to the gameplay. We see that in a video game universe, all forms of laws can and should be broken to help alleviate game play and accentuate the extremities of the game so it is a lot more interesting. Not only do bending these concepts and laws help bring about a better game playing experience, but by maneuvering around the rules that regulate a universe, the designers introduce to the players something beyond the ground rules of reality.
It appears that the laws of physics from the “real world” setting are broken quite frequently in every manner conceivable in the game of Super Smash Brothers Brawl and in many cases not kept consistent in the world of the game itself. The outlandish physics engine was established for exaggerated humor and compelling/dynamic effect and was also created with intention to make the game more immersive and engaging.
The word count is a little greater than 1500 words because I felt there was a lot to discuss about in the world of gaming when it came to concepts in physics. I revised and cut out essentially everything that I felt could go and left only the nitty gritty. All the information I have kept I feel is very important to my paper.
[Here is a revised version of my Outline below since I deviated quite a bit from its original order and format]
The Laws of Physics in an Animation Universe OUTLINE
The Physics Engine in "Super Smash Brothers" video game franchise
I. Introduction of the game
B. Introduce thesis & Hypothesis
II. Body
A. Unrealistic exploitation of the laws of Inertia & Gravity: Motion & its relation to characters
1) A weird example of video game Jump Physics, the Double Jump is the ability to jump while you're still airborne from your first jump, thus gaining additional height or distance. Exactly how this is supposed to work is unclear; games that justify it through rocket boots, etc. are the rare exception.
• Justified in several cases due to wings, psychic power etc.
• All characters in Super Smash Bros. Some, like Jigglypuff and Pit, have even more
jumps.
2) In certain circumstances when referring to items, the characters have a different response depending on item which interrupts the flow of a character’s movement in a manner where it is not plausible
• Example includes the homerun bat, where upon contact, the character is momentarily in a fixed position—stationary and inactive before being launched off the screen
B. Notion of Squash and Stretch
1) Certain characters can squash to the point where they are barely perceptible.
• Example includes when Kirby is ducking—his body practically morphs into a blob of
elastic clay
2) Certain items allow characters to change shape, form, and size
• For example, after Jigglypuff obtains the Smash ball and commences his special attack,his body increases in size exponentially essentially covering half the screen blasting away anyone who comes in contact with him.
C. Action & No-Reaction: Forces are not balanced or sensible
1) Two characters can walk right through each other and not be affected by one another
2) When a player/NPC grabs the Smash Ball in SSBB, the character gains a special power that goes against all odds and potentially sends every player that comes in contact with the special move/attack, off the screen without matched recoil
• Mario gains the power to hurl an enormous reign of fireball that covers the entire
screen but stays in place after the wave of blast
• The same goes for Samus and her blaster gun
III. Conclusion
A. Summarize my Points
C. Reiterate my thesis
• The laws of physics from the “real world” perspective is broken constantly in every manner but kept consistent in the world of the game itself.
• The improbable and unfeasible physics engine established for exaggerated humor and
compelling and dynamic effect
Tuesday, October 12, 2010
The Laws of Physics in an Animation Universe
The Physics Engine in "Super Smash Brothers" video game franchise
I. Introduction
A. Initiate with catchy phrase or convincing argument
B. Introduce video game
C. Hypothesis
II. Body
A. Action & No-Reaction: Forces are not balanced or sensible
1) A super powered attack is strongest when it is first used. It gets weaker and weaker the more the character uses it. This applies to all accessible/playable characters in the game.
• For example, when Kirby attacks with his fists, with each wave of attack the level of power emitted is weakened overtime
2) When a player/NPC grabs the Smash Ball in SSBB, the character gains a special power that goes against all odds and potentially sends every player that comes in contact with the special move/attack, off the screen without matched recoil
• Mario gains the power to hurl an enormous reign of fireball that covers the entire screen but stays in place after the wave of blast
• The same goes for Samus and her blaster gun
B. Unrealistic exploitation of the laws of Inertia & Gravity: Motion & its relation to characters
1) A weird example of video game Jump Physics, the Double Jump is the ability to jump while you're still airborne from your first jump, thus gaining additional height or distance. Exactly how this is supposed to work is unclear; games that justify it through rocket boots, etc. are the rare exception.
• Justified in several cases due to wings, psychic power etc.
• All characters in Super Smash Bros. Some, like Jigglypuff and Pit, have even more jumps.
2) In certain circumstances when referring to items, the characters have a different response depending on item which interrupts the flow of a character’s movement in a manner where it is not plausible
• Example includes the homerun bat, where upon contact, the character is momentarily in a fixed position—stationary and inactive before being launched off the screen
3) Newton's Second Law of Motion, relating force, mass, and acceleration, not apparent or rational when observing the level of air resistance and gravity in maps that take place in space or areas with low atmospheric pressure.
• Example includes when one is playing on the map Corneria in SSB, the same principles of gravity and motion apply there as it does in any other map.
C. Notion of Squash and Stretch
1) Certain characters can squash to the point where they are barely perceptible.
• Example includes when Kirby is ducking—his body practically morphs into a blob of elastic clay
2) Certain items allow characters to change shape, form, and size
• For example, after Jigglypuff obtains the Smash ball and commences his special attack, his body increases in size exponentially essentially covering half the screen blasting away anyone who comes in contact with him.
III. Conclusion
A. Reiterate thesis
B. Summarize my Points
C. State my Thoughts
• The laws of physics from the “real world” perspective is broken constantly in every manner but kept consistent in the world of the game itself.
• The improbable and unfeasible physics engine established for exaggerated humor and compelling and dynamic effect
I. Introduction
A. Initiate with catchy phrase or convincing argument
B. Introduce video game
C. Hypothesis
II. Body
A. Action & No-Reaction: Forces are not balanced or sensible
1) A super powered attack is strongest when it is first used. It gets weaker and weaker the more the character uses it. This applies to all accessible/playable characters in the game.
• For example, when Kirby attacks with his fists, with each wave of attack the level of power emitted is weakened overtime
2) When a player/NPC grabs the Smash Ball in SSBB, the character gains a special power that goes against all odds and potentially sends every player that comes in contact with the special move/attack, off the screen without matched recoil
• Mario gains the power to hurl an enormous reign of fireball that covers the entire screen but stays in place after the wave of blast
• The same goes for Samus and her blaster gun
B. Unrealistic exploitation of the laws of Inertia & Gravity: Motion & its relation to characters
1) A weird example of video game Jump Physics, the Double Jump is the ability to jump while you're still airborne from your first jump, thus gaining additional height or distance. Exactly how this is supposed to work is unclear; games that justify it through rocket boots, etc. are the rare exception.
• Justified in several cases due to wings, psychic power etc.
• All characters in Super Smash Bros. Some, like Jigglypuff and Pit, have even more jumps.
2) In certain circumstances when referring to items, the characters have a different response depending on item which interrupts the flow of a character’s movement in a manner where it is not plausible
• Example includes the homerun bat, where upon contact, the character is momentarily in a fixed position—stationary and inactive before being launched off the screen
3) Newton's Second Law of Motion, relating force, mass, and acceleration, not apparent or rational when observing the level of air resistance and gravity in maps that take place in space or areas with low atmospheric pressure.
• Example includes when one is playing on the map Corneria in SSB, the same principles of gravity and motion apply there as it does in any other map.
C. Notion of Squash and Stretch
1) Certain characters can squash to the point where they are barely perceptible.
• Example includes when Kirby is ducking—his body practically morphs into a blob of elastic clay
2) Certain items allow characters to change shape, form, and size
• For example, after Jigglypuff obtains the Smash ball and commences his special attack, his body increases in size exponentially essentially covering half the screen blasting away anyone who comes in contact with him.
III. Conclusion
A. Reiterate thesis
B. Summarize my Points
C. State my Thoughts
• The laws of physics from the “real world” perspective is broken constantly in every manner but kept consistent in the world of the game itself.
• The improbable and unfeasible physics engine established for exaggerated humor and compelling and dynamic effect
Vid Clip of the Day!
---Clip of Professor Alex Garcia & his Experiment for Art 123 Class---
Note: I advise to lower the volume...or else it will blow out your eardrums. But this is literally how it sounded when we observed the event.
Location: In the halls adjacent to library & old Science building
**Using a fire-extinguisher for rocket-like propulsion.
Note: I advise to lower the volume...or else it will blow out your eardrums. But this is literally how it sounded when we observed the event.
Location: In the halls adjacent to library & old Science building
**Using a fire-extinguisher for rocket-like propulsion.
Wednesday, October 6, 2010
Stop Motion Animation of Falling
I initially planned out what sort of obstacles I wanted my object to encounter as well as its environment (band-aid represented the ground--not quite the smoothest nor most rugged surface) and the sort of placement I wanted the camera to be in (top angle). I then determined what kind of object I was going to use. I decided to use a coke bottle cap. I then measured my object’s size, as well as the distance it would fall based upon the setting/background I chose while following the laws of motion as keenly as I can using the odd rule formula to get the correct timing and spacing (marked the sides).
Next I shot a reference video to determine the path of action of my object for the first falling sequence (repeated several times).
The ruler was used as a reference to mimic and match the height of the writing notepad that I was dropping the cap from in my stop motion.
I then used the tracker application tool to calculate and trace its trajectory (falling motion). While using both the video and the plot points of the B mass (coke bottle cap) I was almost prepared to take the shots for my stop motion video.
I then set up my station, placing the camera on the tripod and set both pads adjacent to one another into the frame of the camera. I didn’t want the light too subtle or too harsh. So I diffused the lighting around the “set” so it isn’t over blown or under exposed.
The choice I made to use the red bottle cap also had its reasons; so that there is enough contrast with the background during the entire animation sequence—took consideration to many possible shortcomings along the way.
Now my stop motion animation was underway. Almost everything was carefully executed. Even the audio is in sync. I took many shots—repeated many sequences to perfect the motion of the movement of my object. Even though this was my first ever stop motion animation, I wanted to challenge myself so I tried multiple falling sequences including the clothespin drop and the string/rope drop.
*Also note that though the band-aids are aligned with each other, there are grooves between each one (the bottle cap occasionally falls in between)
Stop Motion Animation Sequence (apologize for the low quality):
HIGHLY RECOMMENDED! For the Higher Quality Version (Use link below):
http://vimeo.com/15596822
Next I shot a reference video to determine the path of action of my object for the first falling sequence (repeated several times).
The ruler was used as a reference to mimic and match the height of the writing notepad that I was dropping the cap from in my stop motion.
I then used the tracker application tool to calculate and trace its trajectory (falling motion). While using both the video and the plot points of the B mass (coke bottle cap) I was almost prepared to take the shots for my stop motion video.
I then set up my station, placing the camera on the tripod and set both pads adjacent to one another into the frame of the camera. I didn’t want the light too subtle or too harsh. So I diffused the lighting around the “set” so it isn’t over blown or under exposed.
The choice I made to use the red bottle cap also had its reasons; so that there is enough contrast with the background during the entire animation sequence—took consideration to many possible shortcomings along the way.
Now my stop motion animation was underway. Almost everything was carefully executed. Even the audio is in sync. I took many shots—repeated many sequences to perfect the motion of the movement of my object. Even though this was my first ever stop motion animation, I wanted to challenge myself so I tried multiple falling sequences including the clothespin drop and the string/rope drop.
*Also note that though the band-aids are aligned with each other, there are grooves between each one (the bottle cap occasionally falls in between)
Stop Motion Animation Sequence (apologize for the low quality):
HIGHLY RECOMMENDED! For the Higher Quality Version (Use link below):
http://vimeo.com/15596822
Monday, October 4, 2010
OMG CAT Fukkireta 「吹 っ 切 れ た」
HAHA~~ found something that I thought you would probably enjoy watching Mr. Garcia
Subscribe to:
Posts (Atom)