**6. Appendices**

#### **6.1 Powersim diagram of the basic filariasis model**

#### **6.2 Powersim listing program of the basic filariasis model**

init A = 10 flow A = +dt\*Rate\_A init Iv = 0 flow Iv = +dt\*Rate\_Iv init K = 0 flow K = +dt\*Rate\_K init Sh = Rh/Mh flow Sh = +dt\*Rate\_Sh


#### **7. References**

440 Current Topics in Tropical Medicine

economics issues in epidemiology (Supali *et al*., in prep.). Climate change also regarded as a factor contributes to current emerging and re-emerging infectious diseases. For example, since the global temperature is rising then suitable habitat for mosquitoes becomes wider. It is reported that many parts in the globe of previously free from mosquito is now invaded by incoming mosquitoes. To obtain a better prediction of global filarial transmission, this climatology aspect also should be considered. We believe that there are many other venues

Part of the research is funded by the Indonesian Government through the scheme of

Rate\_A

Sh A K

Rate\_K

Iv

Nh

d

Rate\_Sv Rate\_Iv

ph

are possible for future research in mathematical aspect of filariasis transmission.

**5. Acknowledgment** 

**6. Appendices** 

n

Rv

init A = 10

init Iv = 0

init K = 0

flow A = +dt\*Rate\_A

flow Iv = +dt\*Rate\_Iv

flow K = +dt\*Rate\_K init Sh = Rh/Mh flow Sh = +dt\*Rate\_Sh

p0

Rate\_Sh

Penelitian Hibah Kompetensi 2012.

Rh Mh

**6.1 Powersim diagram of the basic filariasis model** 

b

pv1 Mv

**6.2 Powersim listing program of the basic filariasis model** 

Sv


**Part 3** 

**Other Tropical Infectious and** 

**Non-Infectious Conditions** 

