Error-based autofocus system using image feedback in a liquid-filled diaphragm lens
A liquid-filled diaphragm (LFD) lens system that uses image feedback for automatic focus control has been designed and developed. The edge slope width ( ) of the pixel intensity profile across a binary target was selected as the focus measure parameter. An algorithm was developed to achieve single-...
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| Published in | Optical Engineering Vol. 48; no. 12; pp. 123602 - 123609 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
01.12.2009
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0091-3286 1560-2303 |
| DOI | 10.1117/1.3275450 |
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| Abstract | A liquid-filled diaphragm (LFD) lens system that uses image feedback for automatic focus control has been designed and developed. The edge slope width (
) of the pixel intensity profile across a binary target was selected as the focus measure parameter. An algorithm was developed to achieve single- and dual-direction autofocus control. An improved autofocus method, which is based on the error between the expected
value for a focused image and the
value for the current (unfocused) image, was introduced to improve the performance of the system. An empirical equation of the focus measure error was used to predict the number of autofocus operation steps required to approach a near-focus region. A stepper motor was used for actuating a syringe-driven pump mechanism that injects or withdraws fluid into (or out of) the fluid lens chamber. The lens diaphragm was made of polydimethylsiloxane (PDMS) polymer that covers the fluid chamber. A monochrome CCD camera was attached to the LFD lens to capture live images of the target. The autofocus experiments carried out using the new differential error-based algorithm proved the viability of the algorithm in determining the near-focus region. A maximum reduction of time operation was also recorded to be
in comparison with the normal autofocus algorithm. |
|---|---|
| AbstractList | A liquid-filled diaphragm (LFD) lens system that uses image feedback for automatic focus control has been designed and developed. The edge slope width (ESW) of the pixel intensity profile across a binary target was selected as the focus measure parameter. An algorithm was developed to achieve single-and dual-direction autofocus control. An improved autofocus method, which is based on the error between the expected ESW value for a focused image and the ESW value for the current (unfocused) image, was introduced to improve the performance of the system. An empirical equation of the focus measure error was used to predict the number of autofocus operation steps required to approach a near-focus region. A stepper motor was used for actuating a syringe-driven pump mechanism that injects or withdraws fluid into (or out of) the fluid lens chamber. The lens diaphragm was made of polydimethylsiloxane (PDMS) polymer that covers the fluid chamber. A monochrome CCD camera was attached to the LFD lens to capture live images of the target. The autofocus experiments carried out using the new differential error-based algorithm proved the viability of the algorithm in determining the near-focus region. A maximum reduction of time operation was also recorded to be 40 s in comparison with the normal autofocus algorithm. A liquid-filled diaphragm (LFD) lens system that uses image feedback for automatic focus control has been designed and developed. The edge slope width ( ) of the pixel intensity profile across a binary target was selected as the focus measure parameter. An algorithm was developed to achieve single- and dual-direction autofocus control. An improved autofocus method, which is based on the error between the expected value for a focused image and the value for the current (unfocused) image, was introduced to improve the performance of the system. An empirical equation of the focus measure error was used to predict the number of autofocus operation steps required to approach a near-focus region. A stepper motor was used for actuating a syringe-driven pump mechanism that injects or withdraws fluid into (or out of) the fluid lens chamber. The lens diaphragm was made of polydimethylsiloxane (PDMS) polymer that covers the fluid chamber. A monochrome CCD camera was attached to the LFD lens to capture live images of the target. The autofocus experiments carried out using the new differential error-based algorithm proved the viability of the algorithm in determining the near-focus region. A maximum reduction of time operation was also recorded to be in comparison with the normal autofocus algorithm. |
| Author | Samad, Zahurin Abdullah, Soran J Ratnam, Mani Maran |
| Author_xml | – sequence: 1 givenname: Soran J surname: Abdullah fullname: Abdullah, Soran J organization: Universiti Sains Malaysia, School of Mechanical Engineering, 14300 Nibong Tebal, Penang 14300 Malaysia – sequence: 2 givenname: Mani Maran surname: Ratnam fullname: Ratnam, Mani Maran organization: Universiti Sains Malaysia, School of Mechanical Engineering, 14300 Nibong Tebal, Penang 14300 Malaysia – sequence: 3 givenname: Zahurin surname: Samad fullname: Samad, Zahurin organization: Universiti Sains Malaysia, School of Mechanical Engineering, 14300 Nibong Tebal, Penang 14300 Malaysia |
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| Snippet | A liquid-filled diaphragm (LFD) lens system that uses image feedback for automatic focus control has been designed and developed. The edge slope width (
) of... A liquid-filled diaphragm (LFD) lens system that uses image feedback for automatic focus control has been designed and developed. The edge slope width (ESW) of... |
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| SubjectTerms | Algorithms autofocus Control systems Diaphragms Fluid dynamics Fluid flow fluid lens Fluids Lenses liquid-filled lens |
| Title | Error-based autofocus system using image feedback in a liquid-filled diaphragm lens |
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