IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0223864
(1998-12-31)
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발명자
/ 주소 |
- Lowry, Kent R.
- Igra, Mark S.
- Frank, Brian
- Sullivan, Jeanell D.
- Maguire, III, Justin M.
- Androski, Matthew J.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
108 인용 특허 :
18 |
초록
▼
Editing cells within a spreadsheet to change the contents of a spreadsheet. To enter edit mode and alter the contents of a cell, the user first selects a cell by single clicking a mouse button while the mouse indicator is positioned above the cell. The user then initiates another single click when t
Editing cells within a spreadsheet to change the contents of a spreadsheet. To enter edit mode and alter the contents of a cell, the user first selects a cell by single clicking a mouse button while the mouse indicator is positioned above the cell. The user then initiates another single click when the mouse indicator is positioned above the selected cell. Once edit mode is active, the user may change the contents of the cell from within the web browser window as desired. Edit mode can be exited through one of three methods: an "exit and save" signal, an "exit and discard" signal, or a click and drag maneuver. The exit and save signal prompts the invention to save all changes to the cell that the user has made. The exit and discard signal prompts the invention to discard any changes made to the cell by the user, revert to the pre-edit mode contents of the edit cell, and exit edit mode. Finally, a click and drag maneuver not only exits edit mode, but selects a range of cells. The click and drag is performed by depressing a mouse button while the mouse indicator is positioned over the edit cell, moving the mouse while holding the mouse button depressed, and releasing the mouse button when the end of the desired range of cells is reached. The range of cells selected will then start with the edit cell and continue to the cell over which the mouse indicator was positioned when the mouse button was released.
대표청구항
▼
Editing cells within a spreadsheet to change the contents of a spreadsheet. To enter edit mode and alter the contents of a cell, the user first selects a cell by single clicking a mouse button while the mouse indicator is positioned above the cell. The user then initiates another single click when t
Editing cells within a spreadsheet to change the contents of a spreadsheet. To enter edit mode and alter the contents of a cell, the user first selects a cell by single clicking a mouse button while the mouse indicator is positioned above the cell. The user then initiates another single click when the mouse indicator is positioned above the selected cell. Once edit mode is active, the user may change the contents of the cell from within the web browser window as desired. Edit mode can be exited through one of three methods: an "exit and save" signal, an "exit and discard" signal, or a click and drag maneuver. The exit and save signal prompts the invention to save all changes to the cell that the user has made. The exit and discard signal prompts the invention to discard any changes made to the cell by the user, revert to the pre-edit mode contents of the edit cell, and exit edit mode. Finally, a click and drag maneuver not only exits edit mode, but selects a range of cells. The click and drag is performed by depressing a mouse button while the mouse indicator is positioned over the edit cell, moving the mouse while holding the mouse button depressed, and releasing the mouse button when the end of the desired range of cells is reached. The range of cells selected will then start with the edit cell and continue to the cell over which the mouse indicator was positioned when the mouse button was released. lization of the spectral data; and (b) a smoothing transform, a Savitsky-Golay first derivative, or a Savitsky-Golay second derivative of the spectral data. 9. The method of claim 1, wherein the data transforms include performing: (a) a first derivative of the spectral data; and (b) a normalization, a multiplicative scatter correction, or a smoothing transform on the spectral data. 10. The method of claim 1, wherein the data transforms include two or more of performing a baseline correction, performing a normalization of the spectral data, performing a first derivative on the spectral data, performing a second derivative on the spectral data, performing a multiplicative scatter correction on the spectral data, performing smoothing transform on the spectral data, performing a Kubelka-Munk function on the spectral data, performing a ratio on the spectral data, performing a Savitsky-Golay first derivative, performing a Savitsky-Golay second derivative, performing a mean-centering, and performing a conversion from reflectance/transmittance to absorbance. 11. The method of claim 10, wherein the data transforms are applied singularly and two-at-a-time. 12. The method of claim 2, wherein the baseline correction is combined with each of the normalization, the Kubelka-Munk function, the smoothing transform or conversion from reflectance/transmittance to absorbance; the normalization is combined with each of the baseline correction, conversion from reflectance/transmittance to absorbance, first derivative, second derivative, Kubelka-Munk function, smoothing transform, Savitsky-Golay first derivative, or Savitsky-Golay second derivative; the first derivative transform is combined with each of the baseline correction, normalization, smoothing transform, multiplicative scatter correction, Kubelka-Munk function, or conversion from reflectance/transmittance to absorbance; the second derivative transform is combined with each of the baseline correction, normalization, smoothing transform, the multiplicative scatter correction, or the Kubelka-Munk function; the multiplicative scatter correction is combined with each of the Kubelka-Munk function, smoothing transform and conversion from reflectance/transmittance to absorbance; the Kubelka-Munk function is combined with each of multiplicative scatter correction and smoothing transform; the smoothing transform is combined with each of the baseline correction, conversion from reflectance/transmittance to absorbance, normalization, first derivative, second derivative, multiplicative scatter correction, and Kubelka-Munk function; the Savitsky-Golay first derivative is combined with each of the baseline correction, normalization, multiplicative scatter correction, the Kubelka-Munk function, the smoothing transform, and conversion from reflectance/transmittance to absorbance; the Savitsky-Golay second derivative is combined with each of the baseline correction, normalization transform, the multiplicative scatter correction, the Kubelka-Munk function, smoothing transform, and conversion from reflectance/transmittance to absorbance; and the conversion from reflectance/transmittance to absorbance is combined with each of the baseline correction, normalization, the multiplicative scatter correction, and smoothing transform. 13. The method of claim 1, wherein the data transform is a ratio comprising a denominator and a numerator and said numerator comprises a baseline correction, normalization, multiplicative scatter correction, smoothing transform, or Kubelka-Munk function, when the denominator comprises baseline correction; the numerator comprises normalization when the denominator comprises normalization; the numerator comprises first derivative when the denominator comprises first derivative, the numerator comprises second derivative when the denominator comprises second derivative; the numerator comprises multiplicative scatter correction when the denominator comprises multiplicative scatter c
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