Method for user training for a scanning microscope, scanning microscope, and software program for user training for a scanning microscope
First Claim
Patent Images
1. A method for user training for a scanning microscope, comprising the steps of:
- a) retrieving a complete spectral scan from a memory of the computer system;
b) simulating a spectral selection, wherein the user defines several channels from the complete spectral scan;
c) adjusting a spectral selection means on a real microscope system and the computer system simulates an optical separation of the several channels;
d) generating and displaying an image for each channel defined by the user; and
e) repeating the above steps c) through e) until the generated images correspond to an information content determined or desired by the user.
2 Assignments
0 Petitions
Accused Products
Abstract
A method for user training for a scanning microscope makes possible rapid setting of a scanning microscope with little specimen impact. It is possible to acquire an entire spectrum of a specimen. This specimen can be retrieved from the memory of the computer system for training purposes. The user can then make changes in the setting capabilities displayed to him on the user interface and assess the result thereof, also on the user interface. This can be done without time pressure until the user is satisfied with the result displayed on the user interface.
17 Citations
14 Claims
-
1. A method for user training for a scanning microscope, comprising the steps of:
-
a) retrieving a complete spectral scan from a memory of the computer system; b) simulating a spectral selection, wherein the user defines several channels from the complete spectral scan; c) adjusting a spectral selection means on a real microscope system and the computer system simulates an optical separation of the several channels; d) generating and displaying an image for each channel defined by the user; and e) repeating the above steps c) through e) until the generated images correspond to an information content determined or desired by the user. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A method for user training for a scanning microscope, comprising the steps of:
-
a) retrieving a complete spectral scan from a memory of the computer system; b) acquiring a high-quality spectral intensity vector {right arrow over (I)} for each pixel, the equation corresponding to the complete spectral scan with the SP module, and Δ
λ
at the SP module being unrestrictedly adjustable;c) simulating a spectral selection, wherein the user defines several channels from the complete spectral scan; d) adjusting a spectral selection means on a real microscope system and the computer system simulates an optical separation of the several channels; e) generating and displaying an image for each channel defined by the user; and f) repeating the above steps c) through e) until the generated images correspond to an information content determined or desired by the user.
-
-
7. A method for user training for a scanning microscope, comprising the steps of:
-
a) retrieving a complete spectral scan from a memory of the computer system; b) simulating a spectral selection, wherein the user defines several channels from the complete spectral scan; c) adjusting a spectral selection means on a real microscope system and the computer system simulates an optical separation of the several channels; d) generating and displaying an image for each channel defined by the user; and e) repeating the above steps c) through e) until the generated images correspond to an information content determined or desired by the user, wherein the simulation is performed on the basis of an SP module, there being displayed to the user, on a display associated with the computer system and an user interface having the standard components of the operating software for the SP module, wherein an interactive selection means depicted in the user interface are embodied as mirror sliders with which a band can be optically separated and displayed and wherein an optical separation is simulated by the computer system by generating for each desired channel a vector {right arrow over (I)}Kanal having the dimensionality of the high-quality spectral intensity vector {right arrow over (I)}, the components {right arrow over (I)}i of the spectral intensity vector {right arrow over (I)}Kanal that lie in the separated band being set equal to one. - View Dependent Claims (8)
-
-
9. A method for user training for a scanning microscope, comprising the steps of:
-
a) retrieving a complete spectral scan from a memory of the computer system; b) simulating a spectral selection, wherein the user defines several channels from the complete spectral scan; c) adjusting a spectral selection means on a real microscope system and the computer system simulates an optical separation of the several channels; d) generating and displaying an image for each channel defined by the user; and e) repeating the above steps c) through e) until the generated images correspond to an information content determined or desired by the user, wherein during interactive user training, the simulated settings are transferred into a microscope control system as a configuration data set.
-
-
10. A scanning microscope comprising
means for acquisition of a complete spectral scan of a specimen, spectral selection means cooperating with the means for acquisition, a computer system having a memory for storing the complete spectral scan in the memory of the computer system, a simulator module with which the specific channels of the complete spectral scan, and a display associated with the computer system presents a spectral selection to a user, wherein for each desired channel the computer system calculates an image, pixel by pixel, using the linear combination: -
a vector {right arrow over (I)}Kanal having the dimensionality of the high-quality spectral intensity vector {right arrow over (I)} being generated for each desired channel, the components Ii of the spectral intensity vector {right arrow over (I)}Kanal that lie in the separated band being set equal to one. - View Dependent Claims (11)
-
-
12. A scanning microscope comprising
means for acquisition of a complete spectral scan of a specimen, spectral selection means cooperating with the means for acquisition, a computer system having a memory for storing the complete spectral scan in the memory of the computer system, a simulator module with which the specific channels of the complete spectral scan, and a display associated with the computer system presents a spectral selection to a user, wherein the simulator module encompasses a user interface, the user interface presenting the image of the acquired specimen to the user in a variety of display modes and schematically reproducing settable means of the scanning microscope system, the settable means being adjustable by way of input means of the computer system.
-
13. A computer readable medium storing a computer program for performing the steps of:
-
(a) executing a user training system for a scanning microscope on a commercially available computer system, wherein at least one complete spectral scan is present in a memory of the computer system; (b) simulating a spectral selection, wherein the user defines several channels from the complete spectral scan; (c) adjusting a spectral selection means on a real microscope system and the computer system simulates an optical separation of the several channels; (d) generating and displaying an image for each channel defined by the user; and (e) repeating the above steps b) through d) until the generated images correspond to an information content interpreted as acceptable by the user. - View Dependent Claims (14)
-
Specification