Difference between revisions of "Template:Info:Konfig vs Kloud Konfig"

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(Created page with ":The new version of Space Optimisation uses highly sophisticated acoustic modelling to model the interactions between your speakers and room; this acoustic modelling is based...")
 
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:The new version of Space Optimisation uses highly sophisticated acoustic modelling to model the interactions between your speakers and room; this acoustic modelling is based on the finite-difference time-domain method. A simple two-dimensional analogy to this method of acoustic modelling is of a fishing net laid over a pond; each knot in the net defines a discrete measurement location, so that when a stone is thrown into the pond we can track the resulting ripple by measuring its height at each knot.  
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:The new version of Space Optimisation uses highly sophisticated acoustic modelling to model the interactions between your speakers and the room; this acoustic modelling is based on the finite-difference time-domain method. A simple two-dimensional analogy to this method of acoustic modelling is of a fishing net laid over a pond; each knot in the net defines a discrete measurement location, so that when a stone is thrown into the pond, we can track the resulting ripple by measuring its height at each knot.  
 
:The spatial discretisation employed by this method of acoustic modelling allows the new version of Space Optimisation to correctly consider the effects of:  
 
:The spatial discretisation employed by this method of acoustic modelling allows the new version of Space Optimisation to correctly consider the effects of:  
 
::*non-rectangular rooms;  
 
::*non-rectangular rooms;  
 
::*the placement of features like doors and windows;
 
::*the placement of features like doors and windows;
 
::*And the location and rotation of your speakers.  
 
::*And the location and rotation of your speakers.  
:Furthermore, the time-domain formulation of this method of acoustic modelling means that the new version of Space Optimisation is now able to reduce both the energy and decay time of any artificial distortions caused by the interactions between your speakers and room, resulting in both a flat frequency response and a uniform decay time. :Finally, the new version of Space Optimisation has been designed to give a better balance of low- and mid-frequency energy.
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:Furthermore, the time-domain formulation of this method of acoustic modelling means that the new version of Space Optimisation can now reduce both the energy and decay time of any artificial distortions caused by the interactions between your speakers and the room, resulting in both a flat frequency response and a uniform decay time. :Finally, the new version of Space Optimisation has been designed to give a better balance of low- and mid-frequency energy.

Latest revision as of 15:13, 24 July 2023

The new version of Space Optimisation uses highly sophisticated acoustic modelling to model the interactions between your speakers and the room; this acoustic modelling is based on the finite-difference time-domain method. A simple two-dimensional analogy to this method of acoustic modelling is of a fishing net laid over a pond; each knot in the net defines a discrete measurement location, so that when a stone is thrown into the pond, we can track the resulting ripple by measuring its height at each knot.
The spatial discretisation employed by this method of acoustic modelling allows the new version of Space Optimisation to correctly consider the effects of:
  • non-rectangular rooms;
  • the placement of features like doors and windows;
  • And the location and rotation of your speakers.
Furthermore, the time-domain formulation of this method of acoustic modelling means that the new version of Space Optimisation can now reduce both the energy and decay time of any artificial distortions caused by the interactions between your speakers and the room, resulting in both a flat frequency response and a uniform decay time. :Finally, the new version of Space Optimisation has been designed to give a better balance of low- and mid-frequency energy.