Abstract — Neuroscientists increasingly use computational tools to build and simulate models of the brain. The amounts of data involved in these simulations are immense and efficiently managing this data is key. One particular problem in analyzing this data is the scalable execution of range queries on spatial models of the brain. Known indexing approaches do not perform well, even on today’s small models containing only few million densely packed spatial elements. The problem of current approaches is that with the increasing level of detail in the models, the overlap in the tree structure also increases, ultimately slowing down query execution. The neuroscientists ’ need to work with bigger and more importantly, with increasingly detailed ...
The brain is the most complex organ in the human body, and there are many reasons to study it. One w...
Today’s scientists are quickly moving from in vitro to in silico experimentation: they no longer ana...
In this paper, we propose the Pyramid-Technique, a new indexing method for high-dimensional data spa...
Simulations have become key in many scientific disciplines to better understand natural phenomena. N...
Simulations have become key in many scientific disciplines to better understand natural phenomena. N...
Our brain and nervous system is a vital organ to us, since it is from there our thoughts, personalit...
The execution of spatial range queries is at the core of many applications, particularly in the simu...
The execution of spatial range queries is at the core of many applications, particularly in the simu...
Visual exploration of large multidimensional datasets has seen tremendous progress in recent years, ...
Scientists in many disciplines have progressively been using simulations to better understand the na...
The ability to extract information from collected data has always driven science. Today.s large comp...
Building efficient spatial indexes for range searching is a central problem in spatial databases. Th...
Abstract—Scientists in many disciplines use spatial mesh mod-els to study physical phenomena. Simula...
In this chapter, we explore ways to answer queries on large multi-dimensional data efficiently. Giv...
Building efficient spatial indexes for range searching is a central problem in spatial databases. Th...
The brain is the most complex organ in the human body, and there are many reasons to study it. One w...
Today’s scientists are quickly moving from in vitro to in silico experimentation: they no longer ana...
In this paper, we propose the Pyramid-Technique, a new indexing method for high-dimensional data spa...
Simulations have become key in many scientific disciplines to better understand natural phenomena. N...
Simulations have become key in many scientific disciplines to better understand natural phenomena. N...
Our brain and nervous system is a vital organ to us, since it is from there our thoughts, personalit...
The execution of spatial range queries is at the core of many applications, particularly in the simu...
The execution of spatial range queries is at the core of many applications, particularly in the simu...
Visual exploration of large multidimensional datasets has seen tremendous progress in recent years, ...
Scientists in many disciplines have progressively been using simulations to better understand the na...
The ability to extract information from collected data has always driven science. Today.s large comp...
Building efficient spatial indexes for range searching is a central problem in spatial databases. Th...
Abstract—Scientists in many disciplines use spatial mesh mod-els to study physical phenomena. Simula...
In this chapter, we explore ways to answer queries on large multi-dimensional data efficiently. Giv...
Building efficient spatial indexes for range searching is a central problem in spatial databases. Th...
The brain is the most complex organ in the human body, and there are many reasons to study it. One w...
Today’s scientists are quickly moving from in vitro to in silico experimentation: they no longer ana...
In this paper, we propose the Pyramid-Technique, a new indexing method for high-dimensional data spa...